1fs2 Citations

Insights into SCF ubiquitin ligases from the structure of the Skp1-Skp2 complex.

Schulman BA, Carrano AC, Jeffrey PD, Bowen Z, Kinnucan ER, Finnin MS, Elledge SJ, Harper JW, Pagano M, Pavletich NP
Nature 408 381-6 (2000)
Related entries: 1fqv, 1fs1

Cited: 402 times
EuropePMC logo PMID: 11099048

Abstract

F-box proteins are members of a large family that regulates the cell cycle, the immune response, signalling cascades and developmental programmes by targeting proteins, such as cyclins, cyclin-dependent kinase inhibitors, IkappaBalpha and beta-catenin, for ubiquitination (reviewed in refs 1-3). F-box proteins are the substrate-recognition components of SCF (Skp1-Cullin-F-box protein) ubiquitin-protein ligases. They bind the SCF constant catalytic core by means of the F-box motif interacting with Skp1, and they bind substrates through their variable protein-protein interaction domains. The large number of F-box proteins is thought to allow ubiquitination of numerous, diverse substrates. Most organisms have several Skp1 family members, but the function of these Skp1 homologues and the rules of recognition between different F-box and Skp1 proteins remain unknown. Here we describe the crystal structure of the human F-box protein Skp2 bound to Skp1. Skp1 recruits the F-box protein through a bipartite interface involving both the F-box and the substrate-recognition domain. The structure raises the possibility that different Skp1 family members evolved to function with different subsets of F-box proteins, and suggests that the F-box protein may not only recruit substrate, but may also position it optimally for the ubiquitination reaction.

Reviews - 1fs2 mentioned but not cited (1)

  1. Overview of protein structural and functional folds. Sun PD, Foster CE, Boyington JC. Curr Protoc Protein Sci Chapter 17 Unit 17.1 (2004)

Articles - 1fs2 mentioned but not cited (3)

  1. Sequence and structural analysis of BTB domain proteins. Stogios PJ, Downs GS, Jauhal JJ, Nandra SK, Privé GG. Genome Biol 6 R82 (2005)
  2. Cryo-EM structure of SKP1-SKP2-CKS1 in complex with CDK2-cyclin A-p27KIP1. Rowland RJ, Heath R, Maskell D, Thompson RF, Ranson NA, Blaza JN, Endicott JA, Noble MEM, Salamina M. Sci Rep 13 10718 (2023)
  3. Thioridazine reverses trastuzumab resistance in gastric cancer by inhibiting S-phase kinase associated protein 2-mediated aerobic glycolysis. Yang ZY, Zhao YW, Xue JR, Guo R, Zhao Z, Liu HD, Ren ZG, Shi M. World J Gastroenterol 29 5974-5987 (2023)


Reviews citing this publication (76)

  1. Function and regulation of cullin-RING ubiquitin ligases. Petroski MD, Deshaies RJ. Nat Rev Mol Cell Biol 6 9-20 (2005)
  2. Ubiquitin: structures, functions, mechanisms. Pickart CM, Eddins MJ. Biochim Biophys Acta 1695 55-72 (2004)
  3. FBW7 ubiquitin ligase: a tumour suppressor at the crossroads of cell division, growth and differentiation. Welcker M, Clurman BE. Nat Rev Cancer 8 83-93 (2008)
  4. The SCF ubiquitin ligase: insights into a molecular machine. Cardozo T, Pagano M. Nat Rev Mol Cell Biol 5 739-751 (2004)
  5. Ubiquitin Ligases: Structure, Function, and Regulation. Zheng N, Shabek N. Annu Rev Biochem 86 129-157 (2017)
  6. Diversity of degradation signals in the ubiquitin-proteasome system. Ravid T, Hochstrasser M. Nat Rev Mol Cell Biol 9 679-690 (2008)
  7. Molecular genetic analyses of microsporogenesis and microgametogenesis in flowering plants. Ma H. Annu Rev Plant Biol 56 393-434 (2005)
  8. A hitchhiker's guide to the cullin ubiquitin ligases: SCF and its kin. Willems AR, Schwab M, Tyers M. Biochim Biophys Acta 1695 133-170 (2004)
  9. The cullin protein family. Sarikas A, Hartmann T, Pan ZQ. Genome Biol 12 220 (2011)
  10. The cullin-RING ubiquitin-protein ligases. Hua Z, Vierstra RD. Annu Rev Plant Biol 62 299-334 (2011)
  11. Cullin-based ubiquitin ligases: Cul3-BTB complexes join the family. Pintard L, Willems A, Peter M. EMBO J 23 1681-1687 (2004)
  12. The SOCS box: a tale of destruction and degradation. Kile BT, Schulman BA, Alexander WS, Nicola NA, Martin HM, Hilton DJ. Trends Biochem Sci 27 235-241 (2002)
  13. Structural basis of Keap1 interactions with Nrf2. Canning P, Sorrell FJ, Bullock AN. Free Radic Biol Med 88 101-107 (2015)
  14. The many faces of beta-TrCP E3 ubiquitin ligases: reflections in the magic mirror of cancer. Fuchs SY, Spiegelman VS, Kumar KG. Oncogene 23 2028-2036 (2004)
  15. Fifteen-year quest for microphthalmia-associated transcription factor target genes. Cheli Y, Ohanna M, Ballotti R, Bertolotto C. Pigment Cell Melanoma Res 23 27-40 (2010)
  16. Phosphoserine/threonine-binding domains. Yaffe MB, Elia AE. Curr Opin Cell Biol 13 131-138 (2001)
  17. Ratchets and clocks: the cell cycle, ubiquitylation and protein turnover. Reed SI. Nat Rev Mol Cell Biol 4 855-864 (2003)
  18. Getting into position: the catalytic mechanisms of protein ubiquitylation. Passmore LA, Barford D. Biochem J 379 513-525 (2004)
  19. Phospho-Ser/Thr-binding domains: navigating the cell cycle and DNA damage response. Reinhardt HC, Yaffe MB. Nat Rev Mol Cell Biol 14 563-580 (2013)
  20. E3 ubiquitin ligases as regulators of membrane protein trafficking and degradation. d'Azzo A, Bongiovanni A, Nastasi T. Traffic 6 429-441 (2005)
  21. Structural assembly of cullin-RING ubiquitin ligase complexes. Zimmerman ES, Schulman BA, Zheng N. Curr Opin Struct Biol 20 714-721 (2010)
  22. Dynamic allostery: linkers are not merely flexible. Ma B, Tsai CJ, Haliloğlu T, Nussinov R. Structure 19 907-917 (2011)
  23. Structural regulation of cullin-RING ubiquitin ligase complexes. Duda DM, Scott DC, Calabrese MF, Zimmerman ES, Zheng N, Schulman BA. Curr Opin Struct Biol 21 257-264 (2011)
  24. Ribonuclease inhibitor: structure and function. Dickson KA, Haigis MC, Raines RT. Prog Nucleic Acid Res Mol Biol 80 349-374 (2005)
  25. Antigen presentation and the ubiquitin-proteasome system in host-pathogen interactions. Loureiro J, Ploegh HL. Adv Immunol 92 225-305 (2006)
  26. Behind the lines-actions of bacterial type III effector proteins in plant cells. Büttner D. FEMS Microbiol Rev 40 894-937 (2016)
  27. The SCF ubiquitin ligase: an extended look. Jackson PK, Eldridge AG. Mol Cell 9 923-925 (2002)
  28. Regulation of abiotic stress signal transduction by E3 ubiquitin ligases in Arabidopsis. Lee JH, Kim WT. Mol Cells 31 201-208 (2011)
  29. Plant E3 ligases: flexible enzymes in a sessile world. Chen L, Hellmann H. Mol Plant 6 1388-1404 (2013)
  30. Regulation of the G1 to S transition by the ubiquitin pathway. DeSalle LM, Pagano M. FEBS Lett 490 179-189 (2001)
  31. Interaction domains: from simple binding events to complex cellular behavior. Pawson T, Raina M, Nash P. FEBS Lett 513 2-10 (2002)
  32. The leucine-rich repeat domain in plant innate immunity: a wealth of possibilities. Padmanabhan M, Cournoyer P, Dinesh-Kumar SP. Cell Microbiol 11 191-198 (2009)
  33. Thyrotropin and homologous glycoprotein hormone receptors: structural and functional aspects of extracellular signaling mechanisms. Kleinau G, Krause G. Endocr Rev 30 133-151 (2009)
  34. The SOCS box-adapting proteins for ubiquitination and proteasomal degradation. Linossi EM, Nicholson SE. IUBMB Life 64 316-323 (2012)
  35. More than one way to skin a catenin. Polakis P. Cell 105 563-566 (2001)
  36. Cullin-RING Ubiquitin Ligase Regulatory Circuits: A Quarter Century Beyond the F-Box Hypothesis. Harper JW, Schulman BA. Annu Rev Biochem 90 403-429 (2021)
  37. Protein destruction: adapting roles for Cks proteins. Harper JW. Curr Biol 11 R431-5 (2001)
  38. The use of in vitro peptide-library screens in the analysis of phosphoserine/threonine-binding domain structure and function. Yaffe MB, Smerdon SJ. Annu Rev Biophys Biomol Struct 33 225-244 (2004)
  39. Beyond ubiquitination: the atypical functions of Fbxo7 and other F-box proteins. Nelson DE, Randle SJ, Laman H. Open Biol 3 130131 (2013)
  40. Polygalacturonase-inhibiting protein (PGIP) in plant defence: a structural view. Di Matteo A, Bonivento D, Tsernoglou D, Federici L, Cervone F. Phytochemistry 67 528-533 (2006)
  41. Regulation of DNA damage response pathways by the cullin-RING ubiquitin ligases. Hannah J, Zhou P. DNA Repair (Amst) 8 536-543 (2009)
  42. Hijacking of the Host Ubiquitin Network by Legionella pneumophila. Qiu J, Luo ZQ. Front Cell Infect Microbiol 7 487 (2017)
  43. Ubiquitination of substrates by esterification. Wang X, Herr RA, Hansen TH. Traffic 13 19-24 (2012)
  44. E3 ubiquitin ligases and mitosis: embracing the complexity. Sumara I, Maerki S, Peter M. Trends Cell Biol 18 84-94 (2008)
  45. Poxviral ankyrin proteins. Herbert MH, Squire CJ, Mercer AA. Viruses 7 709-738 (2015)
  46. Protein degradation: CUL-3 and BTB--partners in proteolysis. van den Heuvel S. Curr Biol 14 R59-61 (2004)
  47. Amoeba host-Legionella synchronization of amino acid auxotrophy and its role in bacterial adaptation and pathogenic evolution. Price CT, Richards AM, Von Dwingelo JE, Samara HA, Abu Kwaik Y. Environ Microbiol 16 350-358 (2014)
  48. A broad view of scaffolding suggests that scaffolding proteins can actively control regulation and signaling of multienzyme complexes through allostery. Nussinov R, Ma B, Tsai CJ. Biochim Biophys Acta 1834 820-829 (2013)
  49. Clock-associated genes in Arabidopsis: a family affair. Somers DE. Philos Trans R Soc Lond B Biol Sci 356 1745-1753 (2001)
  50. DAB2IP in cancer. Liu L, Xu C, Hsieh JT, Gong J, Xie D. Oncotarget 7 3766-3776 (2016)
  51. Twists and turns in ubiquitin-like protein conjugation cascades. Schulman BA. Protein Sci 20 1941-1954 (2011)
  52. Auxin and the ubiquitin pathway. Two players-one target: the cell cycle in action. Del Pozo JC, Manzano C. J Exp Bot 65 2617-2632 (2014)
  53. Cullin-RING E3 Ubiquitin Ligases: Bridges to Destruction. Nguyen HC, Wang W, Xiong Y. Subcell Biochem 83 323-347 (2017)
  54. Illuminating the COP1/SPA Ubiquitin Ligase: Fresh Insights Into Its Structure and Functions During Plant Photomorphogenesis. Ponnu J, Hoecker U. Front Plant Sci 12 662793 (2021)
  55. Plant Leucine-Rich Repeat Receptor Kinase (LRR-RK): Structure, Ligand Perception, and Activation Mechanism. Chakraborty S, Nguyen B, Wasti SD, Xu G. Molecules 24 E3081 (2019)
  56. Protein complexes mediate signalling in plant responses to hormones, light, sucrose and pathogens. Ellis C, Turner JG, Devoto A. Plant Mol Biol 50 971-980 (2002)
  57. Wrenches in the works: drug discovery targeting the SCF ubiquitin ligase and APC/C complexes. Cardozo T, Pagano M. BMC Biochem 8 Suppl 1 S9 (2007)
  58. Complex glycosylation of Skp1 in Dictyostelium: implications for the modification of other eukaryotic cytoplasmic and nuclear proteins. West CM, van der Wel H, Gaucher EA. Glycobiology 12 17R-27R (2002)
  59. Genetic Dissection of Leaf Senescence in Rice. Leng Y, Ye G, Zeng D. Int J Mol Sci 18 E2686 (2017)
  60. Cyclin F: A component of an E3 ubiquitin ligase complex with roles in neurodegeneration and cancer. Galper J, Rayner SL, Hogan AL, Fifita JA, Lee A, Chung RS, Blair IP, Yang S. Int J Biochem Cell Biol 89 216-220 (2017)
  61. Regulation mechanism of Fbxw7-related signaling pathways (Review). Zhou Z, He C, Wang J. Oncol Rep 34 2215-2224 (2015)
  62. Epidermal growth factor and aging: a signaling molecule reveals a new eye opening function. Rongo C. Aging (Albany NY) 3 896-905 (2011)
  63. The role of SCF ubiquitin-ligase complex at the beginning of life. Xie J, Jin Y, Wang G. Reprod Biol Endocrinol 17 101 (2019)
  64. Skp1: Implications in cancer and SCF-oriented anti-cancer drug discovery. Hussain M, Lu Y, Liu YQ, Su K, Zhang J, Liu J, Zhou GB, Zhou GB. Pharmacol Res 111 34-42 (2016)
  65. Roles and potential therapeutic targets of the ubiquitin proteasome system in muscle wasting. Nury D, Doucet C, Coux O. BMC Biochem 8 Suppl 1 S7 (2007)
  66. E3 Ubiquitin Ligases in Neurological Diseases: Focus on Gigaxonin and Autophagy. Lescouzères L, Bomont P. Front Physiol 11 1022 (2020)
  67. Active modification of host inflammation by Salmonella. Pilar AV, Reid-Yu SA, Cooper CA, Mulder DT, Coombes BK. Gut Microbes 4 140-145 (2013)
  68. Dysregulated expression of SKP2 and its role in hematological malignancies. Kulinski M, Achkar IW, Haris M, Dermime S, Mohammad RM, Uddin S. Leuk Lymphoma 59 1051-1063 (2018)
  69. Are Inositol Polyphosphates the Missing Link in Dynamic Cullin RING Ligase Regulation by the COP9 Signalosome? Zhang X, Rao F. Biomolecules 9 E349 (2019)
  70. Poxviral ANKR/F-box Proteins: Substrate Adapters for Ubiquitylation and More. Ingham RJ, Loubich Facundo F, Dong J. Pathogens 11 875 (2022)
  71. The enzymes in ubiquitin-like post-translational modifications. Chen Y. Biosci Trends 1 16-25 (2007)
  72. Aberrant SKP1 Expression: Diverse Mechanisms Impacting Genome and Chromosome Stability. Thompson LL, Rutherford KA, Lepage CC, McManus KJ. Front Cell Dev Biol 10 859582 (2022)
  73. Closing the cycle: Skp2 modulates cyclic nucleotides antiproliferative effects. Chiariello M, Esposito G. Circ Res 98 1113-1114 (2006)
  74. Small-molecule compounds inhibiting S-phase kinase-associated protein 2: A review. Jing J, Rui L, Junyuan S, Jinfeng Y, Zhihao H, Weiguo L, Zhenyu J. Front Pharmacol 14 1122008 (2023)
  75. Effect of ubiquitin protease system on DNA damage response in prostate cancer (Review). Lin Y, Jin X. Exp Ther Med 27 33 (2024)
  76. Inhibitors Targeting the F-BOX Proteins. Naseem Y, Zhang C, Zhou X, Dong J, Xie J, Zhang H, Agboyibor C, Bi Y, Liu H. Cell Biochem Biophys 81 577-597 (2023)

Articles citing this publication (322)

  1. Structure of the Cul1-Rbx1-Skp1-F boxSkp2 SCF ubiquitin ligase complex. Zheng N, Schulman BA, Song L, Miller JJ, Jeffrey PD, Wang P, Chu C, Koepp DM, Elledge SJ, Pagano M, Conaway RC, Conaway JW, Harper JW, Pavletich NP. Nature 416 703-709 (2002)
  2. The Arabidopsis F-box protein TIR1 is an auxin receptor. Kepinski S, Leyser O. Nature 435 446-451 (2005)
  3. An auxin-based degron system for the rapid depletion of proteins in nonplant cells. Nishimura K, Fukagawa T, Takisawa H, Kakimoto T, Kanemaki M. Nat Methods 6 917-922 (2009)
  4. Mechanism of auxin perception by the TIR1 ubiquitin ligase. Tan X, Calderon-Villalobos LI, Sharon M, Zheng C, Robinson CV, Estelle M, Zheng N. Nature 446 640-645 (2007)
  5. Structural insights into NEDD8 activation of cullin-RING ligases: conformational control of conjugation. Duda DM, Borg LA, Scott DC, Hunt HW, Hammel M, Schulman BA. Cell 134 995-1006 (2008)
  6. Letter Systematic analysis and nomenclature of mammalian F-box proteins. Jin J, Cardozo T, Lovering RC, Elledge SJ, Pagano M, Harper JW. Genes Dev 18 2573-2580 (2004)
  7. Structure of a beta-TrCP1-Skp1-beta-catenin complex: destruction motif binding and lysine specificity of the SCF(beta-TrCP1) ubiquitin ligase. Wu G, Xu G, Schulman BA, Jeffrey PD, Harper JW, Pavletich NP. Mol Cell 11 1445-1456 (2003)
  8. The SCF(COI1) ubiquitin-ligase complexes are required for jasmonate response in Arabidopsis. Xu L, Liu F, Lechner E, Genschik P, Crosby WL, Ma H, Peng W, Huang D, Xie D. Plant Cell 14 1919-1935 (2002)
  9. The Arabidopsis F-box protein SLEEPY1 targets gibberellin signaling repressors for gibberellin-induced degradation. Dill A, Thomas SG, Hu J, Steber CM, Sun TP. Plant Cell 16 1392-1405 (2004)
  10. Structural basis for phosphodependent substrate selection and orientation by the SCFCdc4 ubiquitin ligase. Orlicky S, Tang X, Willems A, Tyers M, Sicheri F. Cell 112 243-256 (2003)
  11. BTB proteins are substrate-specific adaptors in an SCF-like modular ubiquitin ligase containing CUL-3. Xu L, Wei Y, Reboul J, Vaglio P, Shin TH, Vidal M, Elledge SJ, Harper JW. Nature 425 316-321 (2003)
  12. Structure of a Fbw7-Skp1-cyclin E complex: multisite-phosphorylated substrate recognition by SCF ubiquitin ligases. Hao B, Oehlmann S, Sowa ME, Harper JW, Pavletich NP. Mol Cell 26 131-143 (2007)
  13. The BTB protein MEL-26 is a substrate-specific adaptor of the CUL-3 ubiquitin-ligase. Pintard L, Willis JH, Willems A, Johnson JL, Srayko M, Kurz T, Glaser S, Mains PE, Tyers M, Bowerman B, Peter M. Nature 425 311-316 (2003)
  14. Structures of SPOP-substrate complexes: insights into molecular architectures of BTB-Cul3 ubiquitin ligases. Zhuang M, Calabrese MF, Liu J, Waddell MB, Nourse A, Hammel M, Miller DJ, Walden H, Duda DM, Seyedin SN, Hoggard T, Harper JW, White KP, Schulman BA. Mol Cell 36 39-50 (2009)
  15. RPN4 is a ligand, substrate, and transcriptional regulator of the 26S proteasome: a negative feedback circuit. Xie Y, Varshavsky A. Proc Natl Acad Sci U S A 98 3056-3061 (2001)
  16. COI1 links jasmonate signalling and fertility to the SCF ubiquitin-ligase complex in Arabidopsis. Devoto A, Nieto-Rostro M, Xie D, Ellis C, Harmston R, Patrick E, Davis J, Sherratt L, Coleman M, Turner JG. Plant J 32 457-466 (2002)
  17. Pharmacological inactivation of Skp2 SCF ubiquitin ligase restricts cancer stem cell traits and cancer progression. Chan CH, Morrow JK, Li CF, Gao Y, Jin G, Moten A, Stagg LJ, Ladbury JE, Cai Z, Xu D, Logothetis CJ, Hung MC, Zhang S, Lin HK. Cell 154 556-568 (2013)
  18. A CDK-independent function of mammalian Cks1: targeting of SCF(Skp2) to the CDK inhibitor p27Kip1. Spruck C, Strohmaier H, Watson M, Smith AP, Ryan A, Krek TW, Reed SI. Mol Cell 7 639-650 (2001)
  19. Patterns of gene duplication in the plant SKP1 gene family in angiosperms: evidence for multiple mechanisms of rapid gene birth. Kong H, Landherr LL, Frohlich MW, Leebens-Mack J, Ma H, dePamphilis CW. Plant J 50 873-885 (2007)
  20. BTB/POZ domain proteins are putative substrate adaptors for cullin 3 ubiquitin ligases. Geyer R, Wee S, Anderson S, Yates J, Wolf DA. Mol Cell 12 783-790 (2003)
  21. Structural and transcriptional analysis of the self-incompatibility locus of almond: identification of a pollen-expressed F-box gene with haplotype-specific polymorphism. Ushijima K, Sassa H, Dandekar AM, Gradziel TM, Tao R, Hirano H. Plant Cell 15 771-781 (2003)
  22. Structure of the Cand1-Cul1-Roc1 complex reveals regulatory mechanisms for the assembly of the multisubunit cullin-dependent ubiquitin ligases. Goldenberg SJ, Cascio TC, Shumway SD, Garbutt KC, Liu J, Xiong Y, Zheng N. Cell 119 517-528 (2004)
  23. Role of the F-box protein Skp2 in lymphomagenesis. Latres E, Chiarle R, Schulman BA, Pavletich NP, Pellicer A, Inghirami G, Pagano M. Proc Natl Acad Sci U S A 98 2515-2520 (2001)
  24. Comparative sequence analysis of leucine-rich repeats (LRRs) within vertebrate toll-like receptors. Matsushima N, Tanaka T, Enkhbayar P, Mikami T, Taga M, Yamada K, Kuroki Y. BMC Genomics 8 124 (2007)
  25. Structure of DDB1 in complex with a paramyxovirus V protein: viral hijack of a propeller cluster in ubiquitin ligase. Li T, Chen X, Garbutt KC, Zhou P, Zheng N. Cell 124 105-117 (2006)
  26. Structural basis of the Cks1-dependent recognition of p27(Kip1) by the SCF(Skp2) ubiquitin ligase. Hao B, Zheng N, Schulman BA, Wu G, Miller JJ, Pagano M, Pavletich NP. Mol Cell 20 9-19 (2005)
  27. Inducible, reversible system for the rapid and complete degradation of proteins in mammalian cells. Holland AJ, Fachinetti D, Han JS, Cleveland DW. Proc Natl Acad Sci U S A 109 E3350-7 (2012)
  28. The neurosteroid allopregnanolone promotes proliferation of rodent and human neural progenitor cells and regulates cell-cycle gene and protein expression. Wang JM, Johnston PB, Ball BG, Brinton RD. J Neurosci 25 4706-4718 (2005)
  29. Mechanism of SMRT corepressor recruitment by the BCL6 BTB domain. Ahmad KF, Melnick A, Lax S, Bouchard D, Liu J, Liu J, Kiang CL, Mayer S, Takahashi S, Licht JD, Privé GG. Mol Cell 12 1551-1564 (2003)
  30. SKP1-SnRK protein kinase interactions mediate proteasomal binding of a plant SCF ubiquitin ligase. Farrás R, Ferrando A, Jásik J, Kleinow T, Okrész L, Tiburcio A, Salchert K, del Pozo C, Schell J, Koncz C. EMBO J 20 2742-2756 (2001)
  31. Protein interaction analysis of SCF ubiquitin E3 ligase subunits from Arabidopsis. Risseeuw EP, Daskalchuk TE, Banks TW, Liu E, Cotelesage J, Hellmann H, Estelle M, Somers DE, Crosby WL. Plant J 34 753-767 (2003)
  32. The Hedgehog-inducible ubiquitin ligase subunit WSB-1 modulates thyroid hormone activation and PTHrP secretion in the developing growth plate. Dentice M, Bandyopadhyay A, Gereben B, Callebaut I, Christoffolete MA, Kim BW, Nissim S, Mornon JP, Zavacki AM, Zeöld A, Capelo LP, Curcio-Morelli C, Ribeiro R, Harney JW, Tabin CJ, Bianco AC. Nat Cell Biol 7 698-705 (2005)
  33. Arabidopsis E2Fc functions in cell division and is degraded by the ubiquitin-SCF(AtSKP2) pathway in response to light. del Pozo JC, Boniotti MB, Gutierrez C. Plant Cell 14 3057-3071 (2002)
  34. The e3 ubiquitin ligase gene family in plants: regulation by degradation. Mazzucotelli E, Belloni S, Marone D, De Leonardis A, Guerra D, Di Fonzo N, Cattivelli L, Mastrangelo A. Curr Genomics 7 509-522 (2006)
  35. Predicted protein-protein interaction sites from local sequence information. Ofran Y, Rost B. FEBS Lett 544 236-239 (2003)
  36. Structural basis for Cul3 protein assembly with the BTB-Kelch family of E3 ubiquitin ligases. Canning P, Cooper CDO, Krojer T, Murray JW, Pike ACW, Chaikuad A, Keates T, Thangaratnarajah C, Hojzan V, Marsden BD, Gileadi O, Knapp S, von Delft F, Bullock AN. J Biol Chem 288 7803-7814 (2013)
  37. Lysine activation and functional analysis of E2-mediated conjugation in the SUMO pathway. Yunus AA, Lima CD. Nat Struct Mol Biol 13 491-499 (2006)
  38. RCSB Protein Data Bank: Enabling biomedical research and drug discovery. Goodsell DS, Zardecki C, Di Costanzo L, Duarte JM, Hudson BP, Persikova I, Segura J, Shao C, Voigt M, Westbrook JD, Young JY, Burley SK. Protein Sci 29 52-65 (2020)
  39. Structural principles of leucine-rich repeat (LRR) proteins. Enkhbayar P, Kamiya M, Osaki M, Matsumoto T, Matsushima N. Proteins 54 394-403 (2004)
  40. Molecular mimicry by an F-box effector of Legionella pneumophila hijacks a conserved polyubiquitination machinery within macrophages and protozoa. Price CT, Al-Khodor S, Al-Quadan T, Santic M, Habyarimana F, Kalia A, Kwaik YA. PLoS Pathog 5 e1000704 (2009)
  41. GSK-3β regulates cell growth, migration, and angiogenesis via Fbw7 and USP28-dependent degradation of HIF-1α. Flügel D, Görlach A, Kietzmann T. Blood 119 1292-1301 (2012)
  42. The crystal structure of polygalacturonase-inhibiting protein (PGIP), a leucine-rich repeat protein involved in plant defense. Di Matteo A, Federici L, Mattei B, Salvi G, Johnson KA, Savino C, De Lorenzo G, Tsernoglou D, Cervone F. Proc Natl Acad Sci U S A 100 10124-10128 (2003)
  43. Ralstonia solanacearum requires F-box-like domain-containing type III effectors to promote disease on several host plants. Angot A, Peeters N, Lechner E, Vailleau F, Baud C, Gentzbittel L, Sartorel E, Genschik P, Boucher C, Genin S. Proc Natl Acad Sci U S A 103 14620-14625 (2006)
  44. Arabidopsis has two redundant Cullin3 proteins that are essential for embryo development and that interact with RBX1 and BTB proteins to form multisubunit E3 ubiquitin ligase complexes in vivo. Figueroa P, Gusmaroli G, Serino G, Habashi J, Ma L, Shen Y, Feng S, Bostick M, Callis J, Hellmann H, Deng XW. Plant Cell 17 1180-1195 (2005)
  45. NEDD8 nucleates a multivalent cullin-RING-UBE2D ubiquitin ligation assembly. Baek K, Krist DT, Prabu JR, Hill S, Klügel M, Neumaier LM, von Gronau S, Kleiger G, Schulman BA. Nature 578 461-466 (2020)
  46. Adaptive evolution in two large families of ubiquitin-ligase adapters in nematodes and plants. Thomas JH. Genome Res 16 1017-1030 (2006)
  47. The Legionella pneumophila F-box protein Lpp2082 (AnkB) modulates ubiquitination of the host protein parvin B and promotes intracellular replication. Lomma M, Dervins-Ravault D, Rolando M, Nora T, Newton HJ, Sansom FM, Sahr T, Gomez-Valero L, Jules M, Hartland EL, Buchrieser C. Cell Microbiol 12 1272-1291 (2010)
  48. Crystal structure of the SOCS2-elongin C-elongin B complex defines a prototypical SOCS box ubiquitin ligase. Bullock AN, Debreczeni JE, Edwards AM, Sundström M, Knapp S. Proc Natl Acad Sci U S A 103 7637-7642 (2006)
  49. Identification and characterization of components of a putative petunia S-locus F-box-containing E3 ligase complex involved in S-RNase-based self-incompatibility. Hua Z, Kao TH. Plant Cell 18 2531-2553 (2006)
  50. Structural basis for a reciprocal regulation between SCF and CSN. Enchev RI, Scott DC, da Fonseca PC, Schreiber A, Monda JK, Schulman BA, Peter M, Morris EP. Cell Rep 2 616-627 (2012)
  51. A comprehensive framework of E2-RING E3 interactions of the human ubiquitin-proteasome system. van Wijk SJ, de Vries SJ, Kemmeren P, Huang A, Boelens R, Bonvin AM, Timmers HT. Mol Syst Biol 5 295 (2009)
  52. Stealing the spotlight: CUL4-DDB1 ubiquitin ligase docks WD40-repeat proteins to destroy. Higa LA, Zhang H. Cell Div 2 5 (2007)
  53. The F-box protein ACRE189/ACIF1 regulates cell death and defense responses activated during pathogen recognition in tobacco and tomato. van den Burg HA, Tsitsigiannis DI, Rowland O, Lo J, Rallapalli G, Maclean D, Takken FL, Jones JD. Plant Cell 20 697-719 (2008)
  54. Role of the F-box protein Skp2 in adhesion-dependent cell cycle progression. Carrano AC, Pagano M. J Cell Biol 153 1381-1390 (2001)
  55. CUL4 associates with DDB1 and DET1 and its downregulation affects diverse aspects of development in Arabidopsis thaliana. Bernhardt A, Lechner E, Hano P, Schade V, Dieterle M, Anders M, Dubin MJ, Benvenuto G, Bowler C, Genschik P, Hellmann H. Plant J 47 591-603 (2006)
  56. Deconjugation of Nedd8 from Cul1 is directly regulated by Skp1-F-box and substrate, and the COP9 signalosome inhibits deneddylated SCF by a noncatalytic mechanism. Emberley ED, Mosadeghi R, Deshaies RJ. J Biol Chem 287 29679-29689 (2012)
  57. Regulation of neddylation and deneddylation of cullin1 in SCFSkp2 ubiquitin ligase by F-box protein and substrate. Bornstein G, Ganoth D, Hershko A. Proc Natl Acad Sci U S A 103 11515-11520 (2006)
  58. RhoBTB2 is a substrate of the mammalian Cul3 ubiquitin ligase complex. Wilkins A, Ping Q, Carpenter CL. Genes Dev 18 856-861 (2004)
  59. Arabidopsis AtCUL3a and AtCUL3b form complexes with members of the BTB/POZ-MATH protein family. Weber H, Bernhardt A, Dieterle M, Hano P, Mutlu A, Estelle M, Genschik P, Hellmann H. Plant Physiol 137 83-93 (2005)
  60. Molecular analyses of the Arabidopsis TUBBY-like protein gene family. Lai CP, Lee CL, Chen PH, Wu SH, Yang CC, Shaw JF. Plant Physiol 134 1586-1597 (2004)
  61. Beta-TrCP recognizes a previously undescribed nonphosphorylated destruction motif in Cdc25A and Cdc25B phosphatases. Kanemori Y, Uto K, Sagata N. Proc Natl Acad Sci U S A 102 6279-6284 (2005)
  62. Mutations in FBXL4, encoding a mitochondrial protein, cause early-onset mitochondrial encephalomyopathy. Gai X, Ghezzi D, Johnson MA, Biagosch CA, Shamseldin HE, Haack TB, Reyes A, Tsukikawa M, Sheldon CA, Srinivasan S, Gorza M, Kremer LS, Wieland T, Strom TM, Polyak E, Place E, Consugar M, Ostrovsky J, Vidoni S, Robinson AJ, Wong LJ, Sondheimer N, Salih MA, Al-Jishi E, Raab CP, Bean C, Furlan F, Parini R, Lamperti C, Mayr JA, Konstantopoulou V, Huemer M, Pierce EA, Meitinger T, Freisinger P, Sperl W, Prokisch H, Alkuraya FS, Falk MJ, Zeviani M. Am J Hum Genet 93 482-495 (2013)
  63. Pseudosubstrate regulation of the SCF(beta-TrCP) ubiquitin ligase by hnRNP-U. Davis M, Hatzubai A, Andersen JS, Ben-Shushan E, Fisher GZ, Yaron A, Bauskin A, Mercurio F, Mann M, Ben-Neriah Y. Genes Dev 16 439-451 (2002)
  64. Formation of an SCF(ZTL) complex is required for proper regulation of circadian timing. Han L, Mason M, Risseeuw EP, Crosby WL, Somers DE. Plant J 40 291-301 (2004)
  65. SKP2- and OTUD1-regulated non-proteolytic ubiquitination of YAP promotes YAP nuclear localization and activity. Yao F, Zhou Z, Kim J, Hang Q, Xiao Z, Ton BN, Chang L, Liu N, Zeng L, Wang W, Wang Y, Zhang P, Hu X, Su X, Liang H, Sun Y, Ma L. Nat Commun 9 2269 (2018)
  66. Assessment of the ability to model proteins with leucine-rich repeats in light of the latest structural information. Kajava AV, Kobe B. Protein Sci 11 1082-1090 (2002)
  67. Members of the Arabidopsis-SKP1-like gene family exhibit a variety of expression patterns and may play diverse roles in Arabidopsis. Zhao D, Ni W, Feng B, Han T, Petrasek MG, Ma H. Plant Physiol 133 203-217 (2003)
  68. The Caenorhabditis elegans Skp1-related gene family: diverse functions in cell proliferation, morphogenesis, and meiosis. Nayak S, Santiago FE, Jin H, Lin D, Schedl T, Kipreos ET. Curr Biol 12 277-287 (2002)
  69. A fatty acid synthase blockade induces tumor cell-cycle arrest by down-regulating Skp2. Knowles LM, Axelrod F, Browne CD, Smith JW. J Biol Chem 279 30540-30545 (2004)
  70. F-box-like domains are present in most poxvirus ankyrin repeat proteins. Mercer AA, Fleming SB, Ueda N. Virus Genes 31 127-133 (2005)
  71. Sgt1p contributes to cyclic AMP pathway activity and physically interacts with the adenylyl cyclase Cyr1p/Cdc35p in budding yeast. Dubacq C, Guerois R, Courbeyrette R, Kitagawa K, Mann C. Eukaryot Cell 1 568-582 (2002)
  72. The Arabidopsis cell cycle F-box protein SKP2A binds to auxin. Jurado S, Abraham Z, Manzano C, López-Torrejón G, Pacios LF, Del Pozo JC. Plant Cell 22 3891-3904 (2010)
  73. EGF signalling activates the ubiquitin proteasome system to modulate C. elegans lifespan. Liu G, Rogers J, Murphy CT, Rongo C. EMBO J 30 2990-3003 (2011)
  74. The critical role of AMPK in driving Akt activation under stress, tumorigenesis and drug resistance. Han F, Li CF, Cai Z, Zhang X, Jin G, Zhang WN, Xu C, Wang CY, Morrow J, Zhang S, Xu D, Wang G, Lin HK. Nat Commun 9 4728 (2018)
  75. Crystal structure of UbcH5b~ubiquitin intermediate: insight into the formation of the self-assembled E2~Ub conjugates. Sakata E, Satoh T, Yamamoto S, Yamaguchi Y, Yagi-Utsumi M, Kurimoto E, Tanaka K, Wakatsuki S, Kato K. Structure 18 138-147 (2010)
  76. A ubiquitin-proteasome pathway represses the Drosophila immune deficiency signaling cascade. Khush RS, Cornwell WD, Uram JN, Lemaitre B. Curr Biol 12 1728-1737 (2002)
  77. Poxvirus ankyrin repeat proteins are a unique class of F-box proteins that associate with cellular SCF1 ubiquitin ligase complexes. Sonnberg S, Seet BT, Pawson T, Fleming SB, Mercer AA. Proc Natl Acad Sci U S A 105 10955-10960 (2008)
  78. Characterization of a novel temperature-sensitive allele of the CUL1/AXR6 subunit of SCF ubiquitin-ligases. Quint M, Ito H, Zhang W, Gray WM. Plant J 43 371-383 (2005)
  79. Direct ubiquitination of beta-catenin by Siah-1 and regulation by the exchange factor TBL1. Dimitrova YN, Li J, Lee YT, Rios-Esteves J, Friedman DB, Choi HJ, Weis WI, Wang CY, Chazin WJ. J Biol Chem 285 13507-13516 (2010)
  80. Functional interaction of 13 yeast SCF complexes with a set of yeast E2 enzymes in vitro. Kus BM, Caldon CE, Andorn-Broza R, Edwards AM. Proteins 54 455-467 (2004)
  81. The F-box protein OsFBK12 targets OsSAMS1 for degradation and affects pleiotropic phenotypes, including leaf senescence, in rice. Chen Y, Xu Y, Luo W, Li W, Chen N, Zhang D, Chong K. Plant Physiol 163 1673-1685 (2013)
  82. Rictor forms a complex with Cullin-1 to promote SGK1 ubiquitination and destruction. Gao D, Wan L, Inuzuka H, Berg AH, Tseng A, Zhai B, Shaik S, Bennett E, Tron AE, Gasser JA, Lau A, Gygi SP, Harper JW, DeCaprio JA, Toker A, Wei W. Mol Cell 39 797-808 (2010)
  83. Release of ubiquitin-charged Cdc34-S - Ub from the RING domain is essential for ubiquitination of the SCF(Cdc4)-bound substrate Sic1. Deffenbaugh AE, Scaglione KM, Zhang L, Moore JM, Buranda T, Sklar LA, Skowyra D. Cell 114 611-622 (2003)
  84. Prediction of lysine ubiquitination with mRMR feature selection and analysis. Cai Y, Huang T, Hu L, Shi X, Xie L, Li Y. Amino Acids 42 1387-1395 (2012)
  85. Ubiquitination and proteolysis of cancer-derived Smad4 mutants by SCFSkp2. Liang M, Liang YY, Wrighton K, Ungermannova D, Wang XP, Brunicardi FC, Liu X, Feng XH, Lin X. Mol Cell Biol 24 7524-7537 (2004)
  86. Fbxo45, a novel ubiquitin ligase, regulates synaptic activity. Tada H, Okano HJ, Takagi H, Shibata S, Yao I, Matsumoto M, Saiga T, Nakayama KI, Kashima H, Takahashi T, Setou M, Okano H. J Biol Chem 285 3840-3849 (2010)
  87. The Skp1-like protein SSK1 is required for cross-pollen compatibility in S-RNase-based self-incompatibility. Zhao L, Huang J, Zhao Z, Li Q, Sims TL, Xue Y. Plant J 62 52-63 (2010)
  88. AhSSK1, a novel SKP1-like protein that interacts with the S-locus F-box protein SLF. Huang J, Zhao L, Yang Q, Xue Y. Plant J 46 780-793 (2006)
  89. research-article F-box proteins: more than baits for the SCF? Hermand D. Cell Div 1 30 (2006)
  90. Three-dimensional structure of the anaphase-promoting complex. Gieffers C, Dube P, Harris JR, Stark H, Peters JM. Mol Cell 7 907-913 (2001)
  91. F-box protein Grr1 interacts with phosphorylated targets via the cationic surface of its leucine-rich repeat. Hsiung YG, Chang HC, Pellequer JL, La Valle R, Lanker S, Wittenberg C. Mol Cell Biol 21 2506-2520 (2001)
  92. Cadmium-induced activation of stress signaling pathways, disruption of ubiquitin-dependent protein degradation and apoptosis in primary rat Sertoli cell-gonocyte cocultures. Yu X, Hong S, Faustman EM. Toxicol Sci 104 385-396 (2008)
  93. Highly heterogeneous rates of evolution in the SKP1 gene family in plants and animals: functional and evolutionary implications. Kong H, Leebens-Mack J, Ni W, dePamphilis CW, Ma H. Mol Biol Evol 21 117-128 (2004)
  94. Multiple Skp1-related proteins in Caenorhabditis elegans: diverse patterns of interaction with Cullins and F-box proteins. Yamanaka A, Yada M, Imaki H, Koga M, Ohshima Y, Nakayama K. Curr Biol 12 267-275 (2002)
  95. Structural basis for the selection of glycosylated substrates by SCF(Fbs1) ubiquitin ligase. Mizushima T, Yoshida Y, Kumanomidou T, Hasegawa Y, Suzuki A, Yamane T, Tanaka K. Proc Natl Acad Sci U S A 104 5777-5781 (2007)
  96. Analysis of homologous gene clusters in Caenorhabditis elegans reveals striking regional cluster domains. Thomas JH. Genetics 172 127-143 (2006)
  97. GogB is an anti-inflammatory effector that limits tissue damage during Salmonella infection through interaction with human FBXO22 and Skp1. Pilar AV, Reid-Yu SA, Cooper CA, Mulder DT, Coombes BK. PLoS Pathog 8 e1002773 (2012)
  98. Inducible dissociation of SCF(Met30) ubiquitin ligase mediates a rapid transcriptional response to cadmium. Barbey R, Baudouin-Cornu P, Lee TA, Rouillon A, Zarzov P, Tyers M, Thomas D. EMBO J 24 521-532 (2005)
  99. Analysis of the role of the type III effector inventory of Pseudomonas syringae pv. phaseolicola 1448a in interaction with the plant. Zumaquero A, Macho AP, Rufián JS, Beuzón CR. J Bacteriol 192 4474-4488 (2010)
  100. Expression and interaction analysis of Arabidopsis Skp1-related genes. Takahashi N, Kuroda H, Kuromori T, Hirayama T, Seki M, Shinozaki K, Shimada H, Matsui M. Plant Cell Physiol 45 83-91 (2004)
  101. Drosophila Roc1a encodes a RING-H2 protein with a unique function in processing the Hh signal transducer Ci by the SCF E3 ubiquitin ligase. Noureddine MA, Donaldson TD, Thacker SA, Duronio RJ. Dev Cell 2 757-770 (2002)
  102. Cullin3 is a KLHL10-interacting protein preferentially expressed during late spermiogenesis. Wang S, Zheng H, Esaki Y, Kelly F, Yan W. Biol Reprod 74 102-108 (2006)
  103. Regulation of flower development in Arabidopsis by SCF complexes. Ni W, Xie D, Hobbie L, Feng B, Zhao D, Akkara J, Ma H. Plant Physiol 134 1574-1585 (2004)
  104. The NEF4 complex regulates Rad4 levels and utilizes Snf2/Swi2-related ATPase activity for nucleotide excision repair. Ramsey KL, Smith JJ, Dasgupta A, Maqani N, Grant P, Auble DT. Mol Cell Biol 24 6362-6378 (2004)
  105. Model of glycoprotein hormone receptor ligand binding and signaling. Moyle WR, Xing Y, Lin W, Cao D, Myers RV, Kerrigan JE, Bernard MP. J Biol Chem 279 44442-44459 (2004)
  106. Structural basis of sugar-recognizing ubiquitin ligase. Mizushima T, Hirao T, Yoshida Y, Lee SJ, Chiba T, Iwai K, Yamaguchi Y, Kato K, Tsukihara T, Tanaka K. Nat Struct Mol Biol 11 365-370 (2004)
  107. Cand1-Mediated Adaptive Exchange Mechanism Enables Variation in F-Box Protein Expression. Liu X, Reitsma JM, Mamrosh JL, Zhang Y, Straube R, Deshaies RJ. Mol Cell 69 773-786.e6 (2018)
  108. Inhibition of SCF ubiquitin ligases by engineered ubiquitin variants that target the Cul1 binding site on the Skp1-F-box interface. Gorelik M, Orlicky S, Sartori MA, Tang X, Marcon E, Kurinov I, Greenblatt JF, Tyers M, Moffat J, Sicheri F, Sidhu SS. Proc Natl Acad Sci U S A 113 3527-3532 (2016)
  109. Notch-induced E2A degradation requires CHIP and Hsc70 as novel facilitators of ubiquitination. Huang Z, Nie L, Xu M, Sun XH. Mol Cell Biol 24 8951-8962 (2004)
  110. Structural basis of selective ubiquitination of TRF1 by SCFFbx4. Zeng Z, Wang W, Yang Y, Chen Y, Yang X, Diehl JA, Liu X, Lei M. Dev Cell 18 214-225 (2010)
  111. Comment BTB proteins as henchmen of Cul3-based ubiquitin ligases. Krek W. Nat Cell Biol 5 950-951 (2003)
  112. Indispensable role for the eukaryotic-like ankyrin domains of the ankyrin B effector of Legionella pneumophila within macrophages and amoebae. Price CT, Al-Khodor S, Al-Quadan T, Abu Kwaik Y. Infect Immun 78 2079-2088 (2010)
  113. GGTase3 is a newly identified geranylgeranyltransferase targeting a ubiquitin ligase. Kuchay S, Wang H, Marzio A, Jain K, Homer H, Fehrenbacher N, Philips MR, Zheng N, Pagano M. Nat Struct Mol Biol 26 628-636 (2019)
  114. The mechanism of ubiquitination in the cullin-RING E3 ligase machinery: conformational control of substrate orientation. Liu J, Nussinov R. PLoS Comput Biol 5 e1000527 (2009)
  115. A comprehensive analysis of interaction and localization of Arabidopsis SKP1-like (ASK) and F-box (FBX) proteins. Kuroda H, Yanagawa Y, Takahashi N, Horii Y, Matsui M. PLoS One 7 e50009 (2012)
  116. A splice variant of Skp2 is retained in the cytoplasm and fails to direct cyclin D1 ubiquitination in the uterine cancer cell line SK-UT. Ganiatsas S, Dow R, Thompson A, Schulman B, Germain D. Oncogene 20 3641-3650 (2001)
  117. Identification of a novel leucine-rich repeat protein as a component of flagellar radial spoke in the Ascidian Ciona intestinalis. Padma P, Satouh Y, Wakabayashi K, Hozumi A, Ushimaru Y, Kamiya R, Inaba K. Mol Biol Cell 14 774-785 (2003)
  118. Method for targeting protein destruction by using a ubiquitin-independent, proteasome-mediated degradation pathway. Matsuzawa S, Cuddy M, Fukushima T, Reed JC. Proc Natl Acad Sci U S A 102 14982-14987 (2005)
  119. Ectromelia virus encodes a novel family of F-box proteins that interact with the SCF complex. van Buuren N, Couturier B, Xiong Y, Barry M. J Virol 82 9917-9927 (2008)
  120. Melanoma antigen gene protein-A11 (MAGE-11) F-box links the androgen receptor NH2-terminal transactivation domain to p160 coactivators. Askew EB, Bai S, Hnat AT, Minges JT, Wilson EM. J Biol Chem 284 34793-34808 (2009)
  121. The Cul3/Klhdc5 E3 ligase regulates p60/katanin and is required for normal mitosis in mammalian cells. Cummings CM, Bentley CA, Perdue SA, Baas PW, Singer JD. J Biol Chem 284 11663-11675 (2009)
  122. Anti-HIV agent MAP30 modulates the expression profile of viral and cellular genes for proliferation and apoptosis in AIDS-related lymphoma cells infected with Kaposi's sarcoma-associated virus. Sun Y, Huang PL, Li JJ, Huang YQ, Zhang L, Huang PL, Lee-Huang S. Biochem Biophys Res Commun 287 983-994 (2001)
  123. Clinical relevance of SKP2 alterations in metastatic melanoma. Rose AE, Wang G, Hanniford D, Monni S, Tu T, Shapiro RL, Berman RS, Pavlick AC, Pagano M, Darvishian F, Mazumdar M, Hernando E, Osman I. Pigment Cell Melanoma Res 24 197-206 (2011)
  124. SkpA restrains synaptic terminal growth during development and promotes axonal degeneration following injury. Brace EJ, Wu C, Valakh V, DiAntonio A. J Neurosci 34 8398-8410 (2014)
  125. Transferable domain in the G(1) cyclin Cln2 sufficient to switch degradation of Sic1 from the E3 ubiquitin ligase SCF(Cdc4) to SCF(Grr1). Berset C, Griac P, Tempel R, La Rue J, Wittenberg C, Lanker S. Mol Cell Biol 22 4463-4476 (2002)
  126. Combinatorial diversity of fission yeast SCF ubiquitin ligases by homo- and heterooligomeric assemblies of the F-box proteins Pop1p and Pop2p. Seibert V, Prohl C, Schoultz I, Rhee E, Lopez R, Abderazzaq K, Zhou C, Wolf DA. BMC Biochem 3 22 (2002)
  127. Skp1 in lung cancer: clinical significance and therapeutic efficacy of its small molecule inhibitors. Liu YQ, Wang XL, Cheng X, Lu YZ, Wang GZ, Li XC, Zhang J, Wen ZS, Huang ZL, Gao QL, Yang LN, Cheng YX, Tao SC, Liu J, Zhou GB, Zhou GB. Oncotarget 6 34953-34967 (2015)
  128. The highly conserved orthopoxvirus 68k ankyrin-like protein is part of a cellular SCF ubiquitin ligase complex. Sperling KM, Schwantes A, Schnierle BS, Sutter G. Virology 374 234-239 (2008)
  129. The myxoma virus m-t5 ankyrin repeat host range protein is a novel adaptor that coordinately links the cellular signaling pathways mediated by Akt and Skp1 in virus-infected cells. Werden SJ, Lanchbury J, Shattuck D, Neff C, Dufford M, McFadden G. J Virol 83 12068-12083 (2009)
  130. p53, SKP2, and DKK3 as MYCN Target Genes and Their Potential Therapeutic Significance. Chen L, Tweddle DA. Front Oncol 2 173 (2012)
  131. Conservation and divergence of ASK1 and ASK2 gene functions during male meiosis in Arabidopsis thaliana. Zhao D, Han T, Risseeuw E, Crosby WL, Ma H. Plant Mol Biol 53 163-173 (2003)
  132. Degradation of target protein in living cells by small-molecule proteolysis inducer. Zhang D, Baek SH, Ho A, Kim K. Bioorg Med Chem Lett 14 645-648 (2004)
  133. Molecular interactions of fission yeast Skp1 and its role in the DNA damage checkpoint. Lehmann A, Katayama S, Harrison C, Dhut S, Kitamura K, McDonald N, Toda T. Genes Cells 9 367-382 (2004)
  134. ASK1, a SKP1 homolog, is required for nuclear reorganization, presynaptic homolog juxtaposition and the proper distribution of cohesin during meiosis in Arabidopsis. Zhao D, Yang X, Quan L, Timofejeva L, Rigel NW, Ma H, Makaroff CA. Plant Mol Biol 62 99-110 (2006)
  135. Exploitation of Host Polyubiquitination Machinery through Molecular Mimicry by Eukaryotic-Like Bacterial F-Box Effectors. Price CT, Kwaik YA. Front Microbiol 1 122 (2010)
  136. Identification of the preferential ubiquitination site and ubiquitin-dependent degradation signal of Rpn4. Ju D, Xie Y. J Biol Chem 281 10657-10662 (2006)
  137. Poxvirus exploitation of the ubiquitin-proteasome system. Barry M, Van Buuren N, Burles K, Mottet K, Wang Q, Teale A. Viruses 2 2356-2380 (2010)
  138. Genome-wide analysis identifies MYND-domain protein Mub1 as an essential factor for Rpn4 ubiquitylation. Ju D, Wang X, Xu H, Xie Y. Mol Cell Biol 28 1404-1412 (2008)
  139. Noncatalytic requirement for cyclin A-cdk2 in p27 turnover. Zhu XH, Nguyen H, Halicka HD, Traganos F, Koff A. Mol Cell Biol 24 6058-6066 (2004)
  140. Origin and evolution of GALA-LRR, a new member of the CC-LRR subfamily: from plants to bacteria? Kajava AV, Anisimova M, Peeters N. PLoS One 3 e1694 (2008)
  141. Silencing of KIF14 interferes with cell cycle progression and cytokinesis by blocking the p27(Kip1) ubiquitination pathway in hepatocellular carcinoma. Xu H, Choe C, Shin SH, Park SW, Kim HS, Jung SH, Yim SH, Kim TM, Chung YJ. Exp Mol Med 46 e97 (2014)
  142. The crystal structure of the tumor suppressor protein pp32 (Anp32a): structural insights into Anp32 family of proteins. Huyton T, Wolberger C. Protein Sci 16 1308-1315 (2007)
  143. A novel gene, MdSSK1, as a component of the SCF complex rather than MdSBP1 can mediate the ubiquitination of S-RNase in apple. Yuan H, Meng D, Gu Z, Li W, Wang A, Yang Q, Zhu Y, Li T. J Exp Bot 65 3121-3131 (2014)
  144. CAND1 enhances deneddylation of CUL1 by COP9 signalosome. Min KW, Kwon MJ, Park HS, Park Y, Yoon SK, Yoon JB. Biochem Biophys Res Commun 334 867-874 (2005)
  145. Composition, roles, and regulation of cullin-based ubiquitin e3 ligases. Choi CM, Gray WM, Mooney S, Hellmann H. Arabidopsis Book 12 e0175 (2014)
  146. Molecular dynamics reveal the essential role of linker motions in the function of cullin-RING E3 ligases. Liu J, Nussinov R. J Mol Biol 396 1508-1523 (2010)
  147. Structural basis of the phosphorylation-independent recognition of cyclin D1 by the SCFFBXO31 ubiquitin ligase. Li Y, Jin K, Bunker E, Zhang X, Luo X, Liu X, Hao B. Proc Natl Acad Sci U S A 115 319-324 (2018)
  148. SKP1 is involved in abscisic acid signalling to regulate seed germination, stomatal opening and root growth in Arabidopsis thaliana. Li C, Liu Z, Zhang Q, Wang R, Xiao L, Ma H, Chong K, Xu Y. Plant Cell Environ 35 952-965 (2012)
  149. The cochlear F-box protein OCP1 associates with OCP2 and connexin 26. Henzl MT, Thalmann I, Larson JD, Ignatova EG, Thalmann R. Hear Res 191 101-109 (2004)
  150. The role of homeostatic regulation between tumor suppressor DAB2IP and oncogenic Skp2 in prostate cancer growth. Tsai YS, Lai CL, Lai CH, Chang KH, Wu K, Tseng SF, Fazli L, Gleave M, Xiao G, Gandee L, Sharifi N, Moro L, Tzai TS, Hsieh JT. Oncotarget 5 6425-6436 (2014)
  151. Methylglyoxal downregulates Raf-1 protein through a ubiquitination-mediated mechanism. Du J, Zeng J, Ou X, Ren X, Cai S. Int J Biochem Cell Biol 38 1084-1091 (2006)
  152. Structural basis of dimerization-dependent ubiquitination by the SCF(Fbx4) ubiquitin ligase. Li Y, Hao B. J Biol Chem 285 13896-13906 (2010)
  153. The hot pepper (Capsicum annuum) microRNA transcriptome reveals novel and conserved targets: a foundation for understanding MicroRNA functional roles in hot pepper. Hwang DG, Park JH, Lim JY, Kim D, Choi Y, Kim S, Reeves G, Yeom SI, Lee JS, Park M, Kim S, Choi IY, Choi D, Shin C. PLoS One 8 e64238 (2013)
  154. Ubiquitination of p27Kip1 requires physical interaction with cyclin E and probable phosphate recognition by SKP2. Ungermannova D, Gao Y, Liu X. J Biol Chem 280 30301-30309 (2005)
  155. Identification of a Skp1-like protein interacting with SFB, the pollen S determinant of the gametophytic self-incompatibility in Prunus. Matsumoto D, Yamane H, Abe K, Tao R. Plant Physiol 159 1252-1262 (2012)
  156. Interaction of Skp1 with CENP-E at the midbody is essential for cytokinesis. Liu D, Zhang N, Du J, Cai X, Zhu M, Jin C, Dou Z, Feng C, Yang Y, Liu L, Takeyasu K, Xie W, Yao X. Biochem Biophys Res Commun 345 394-402 (2006)
  157. Structural insights into E1 recognition and the ubiquitin-conjugating activity of the E2 enzyme Cdc34. Williams KM, Qie S, Atkison JH, Salazar-Arango S, Alan Diehl J, Olsen SK. Nat Commun 10 3296 (2019)
  158. News p27 destruction: Cks1 pulls the trigger. Bartek J, Lukas J. Nat Cell Biol 3 E95-8 (2001)
  159. Identification of a canonical SCF(SLF) complex involved in S-RNase-based self-incompatibility of Pyrus (Rosaceae). Xu C, Li M, Wu J, Guo H, Li Q, Zhang Y, Chai J, Li T, Xue Y. Plant Mol Biol 81 245-257 (2013)
  160. Mir-30d suppresses cell proliferation of colon cancer cells by inhibiting cell autophagy and promoting cell apoptosis. Zhang R, Xu J, Zhao J, Bai J. Tumour Biol 39 1010428317703984 (2017)
  161. Ubiquitination of NF-κB p65 by FBXW2 suppresses breast cancer stemness, tumorigenesis, and paclitaxel resistance. Ren C, Han X, Lu C, Yang T, Qiao P, Sun Y, Yu Z. Cell Death Differ 29 381-392 (2022)
  162. Substrate binding promotes formation of the Skp1-Cul1-Fbxl3 (SCF(Fbxl3)) protein complex. Yumimoto K, Muneoka T, Tsuboi T, Nakayama KI. J Biol Chem 288 32766-32776 (2013)
  163. The F-box protein FBXO7 positively regulates bone morphogenetic protein-mediated signaling through Lys-63-specific ubiquitination of neurotrophin receptor-interacting MAGE (NRAGE). Kang J, Chung KC. Cell Mol Life Sci 72 181-195 (2015)
  164. Mcs2 and a novel CAK subunit Pmh1 associate with Skp1 in fission yeast. Bamps S, Westerling T, Pihlak A, Tafforeau L, Vandenhaute J, Mäkelä TP, Hermand D. Biochem Biophys Res Commun 325 1424-1432 (2004)
  165. Skp2 expression unfavorably impacts survival in resectable esophageal squamous cell carcinoma. Liang Y, Hou X, Cui Q, Kang TB, Fu JH, Zhang LJ, Luo RZ, He JH, Zeng YX, Yang HX. J Transl Med 10 73 (2012)
  166. A conserved mechanism for regulating replisome disassembly in eukaryotes. Jenkyn-Bedford M, Jones ML, Baris Y, Labib KPM, Cannone G, Yeeles JTP, Deegan TD. Nature 600 743-747 (2021)
  167. Aspirin-Induced Chemoprevention and Response Kinetics Are Enhanced by PIK3CA Mutations in Colorectal Cancer Cells. Zumwalt TJ, Wodarz D, Komarova NL, Toden S, Turner J, Cardenas J, Burn J, Chan AT, Boland CR, Goel A. Cancer Prev Res (Phila) 10 208-218 (2017)
  168. Baculovirus F-box protein LEF-7 modifies the host DNA damage response to enhance virus multiplication. Mitchell JK, Byers NM, Friesen PD. J Virol 87 12592-12599 (2013)
  169. Caenorhabditis elegans prom-1 is required for meiotic prophase progression and homologous chromosome pairing. Jantsch V, Tang L, Pasierbek P, Penkner A, Nayak S, Baudrimont A, Schedl T, Gartner A, Loidl J. Mol Biol Cell 18 4911-4920 (2007)
  170. Glycosylation of Skp1 promotes formation of Skp1-cullin-1-F-box protein complexes in dictyostelium. Sheikh MO, Xu Y, van der Wel H, Walden P, Hartson SD, West CM. Mol Cell Proteomics 14 66-80 (2015)
  171. Orientia tsutsugamushi Strain Ikeda Ankyrin Repeat-Containing Proteins Recruit SCF1 Ubiquitin Ligase Machinery via Poxvirus-Like F-Box Motifs. Beyer AR, VieBrock L, Rodino KG, Miller DP, Tegels BK, Marconi RT, Carlyon JA. J Bacteriol 197 3097-3109 (2015)
  172. Protein-protein interactions involved in the recognition of p27 by E3 ubiquitin ligase. Xu K, Belunis C, Chu W, Weber D, Podlaski F, Huang KS, Reed SI, Vassilev LT. Biochem J 371 957-964 (2003)
  173. A protein silencing switch by ligand-induced proteasome-targeting intrabodies. Melchionna T, Cattaneo A. J Mol Biol 374 641-654 (2007)
  174. A truncated two-alpha-helix F-box present in poxvirus ankyrin-repeat proteins is sufficient for binding the SCF1 ubiquitin ligase complex. Sonnberg S, Fleming SB, Mercer AA. J Gen Virol 90 1224-1228 (2009)
  175. CRISPR/Cas9-mediated knockout of PiSSK1 reveals essential role of S-locus F-box protein-containing SCF complexes in recognition of non-self S-RNases during cross-compatible pollination in self-incompatible Petunia inflata. Sun L, Kao TH. Plant Reprod 31 129-143 (2018)
  176. GsSKP21, a Glycine soja S-phase kinase-associated protein, mediates the regulation of plant alkaline tolerance and ABA sensitivity. Liu A, Yu Y, Duan X, Sun X, Duanmu H, Zhu Y. Plant Mol Biol 87 111-124 (2015)
  177. MicroRNA-33a inhibits lung cancer cell proliferation and invasion by regulating the expression of β-catenin. Zhu C, Zhao Y, Zhang Z, Ni Y, Li X, Yong H. Mol Med Rep 11 3647-3651 (2015)
  178. Occurrence of a putative SCF ubiquitin ligase complex in Drosophila. Bocca SN, Muzzopappa M, Silberstein S, Wappner P. Biochem Biophys Res Commun 286 357-364 (2001)
  179. Phylogenetic analysis of the large family of poxvirus ankyrin-repeat proteins reveals orthologue groups within and across chordopoxvirus genera. Sonnberg S, Fleming SB, Mercer AA. J Gen Virol 92 2596-2607 (2011)
  180. Rapid nutritional remodeling of the host cell upon attachment of Legionella pneumophila. Bruckert WM, Price CT, Abu Kwaik Y. Infect Immun 82 72-82 (2014)
  181. Role of a cytoplasmic dual-function glycosyltransferase in O2 regulation of development in Dictyostelium. Wang ZA, van der Wel H, Vohra Y, Buskas T, Boons GJ, West CM. J Biol Chem 284 28896-28904 (2009)
  182. Comment Skp2: caught in the Akt. Ecker K, Hengst L. Nat Cell Biol 11 377-379 (2009)
  183. A novel tomato F-box protein, SlEBF3, is involved in tuning ethylene signaling during plant development and climacteric fruit ripening. Deng H, Pirrello J, Chen Y, Li N, Zhu S, Chirinos X, Bouzayen M, Liu Y, Liu M. Plant J (2018)
  184. Cks1: Structure, Emerging Roles and Implications in Multiple Cancers. Khattar V, Thottassery JV. J Cancer Ther 4 1341-1354 (2013)
  185. Downregulation of vertebrate Tel (ETV6) and Drosophila Yan is facilitated by an evolutionarily conserved mechanism of F-box-mediated ubiquitination. Roukens MG, Alloul-Ramdhani M, Moghadasi S, Op den Brouw M, Baker DA. Mol Cell Biol 28 4394-4406 (2008)
  186. Glycosylation of Skp1 affects its conformation and promotes binding to a model f-box protein. Sheikh MO, Schafer CM, Powell JT, Rodgers KK, Mooers BH, West CM. Biochemistry 53 1657-1669 (2014)
  187. The OsFBK1 E3 Ligase Subunit Affects Anther and Root Secondary Cell Wall Thickenings by Mediating Turnover of a Cinnamoyl-CoA Reductase. Borah P, Khurana JP. Plant Physiol 176 2148-2165 (2018)
  188. Toxoplasma F-box protein 1 is required for daughter cell scaffold function during parasite replication. Baptista CG, Lis A, Deng B, Gas-Pascual E, Dittmar A, Sigurdson W, West CM, Blader IJ. PLoS Pathog 15 e1007946 (2019)
  189. A Competitive binding mechanism between Skp1 and exportin 1 (CRM1) controls the localization of a subset of F-box proteins. Nelson DE, Laman H. J Biol Chem 286 19804-19815 (2011)
  190. Activation of ubiquitin ligase SCF(Skp2) by Cks1: insights from hydrogen exchange mass spectrometry. Yao ZP, Zhou M, Kelly SE, Seeliger MA, Robinson CV, Itzhaki LS. J Mol Biol 363 673-686 (2006)
  191. Herpes virus deneddylases interrupt the cullin-RING ligase neddylation cycle by inhibiting the binding of CAND1. Gastaldello S, Callegari S, Coppotelli G, Hildebrand S, Song M, Masucci MG. J Mol Cell Biol 4 242-251 (2012)
  192. Interference of Notch1 inhibits the growth of glioma cancer cells by inducing cell autophagy and down-regulation of Notch1-Hes-1 signaling pathway. Yao J, Zheng K, Li C, Liu H, Shan X. Med Oncol 32 610 (2015)
  193. O2 sensing-associated glycosylation exposes the F-box-combining site of the Dictyostelium Skp1 subunit in E3 ubiquitin ligases. Sheikh MO, Thieker D, Chalmers G, Schafer CM, Ishihara M, Azadi P, Woods RJ, Glushka JN, Bendiak B, Prestegard JH, West CM. J Biol Chem 292 18897-18915 (2017)
  194. Overproduction of polypeptides corresponding to the amino terminus of the F-box proteins Cdc4p and Met30p inhibits ubiquitin ligase activities of their SCF complexes. Dixon C, Brunson LE, Roy MM, Smothers D, Sehorn MG, Mathias N. Eukaryot Cell 2 123-133 (2003)
  195. Pollen-specific SKP1-like proteins are components of functional scf complexes and essential for lily pollen tube elongation. Chang LC, Guo CL, Lin YS, Fu H, Wang CS, Jauh GY. Plant Cell Physiol 50 1558-1572 (2009)
  196. Structural, expression and interaction analysis of rice SKP1-like genes. Kahloul S, HajSalah El Beji I, Boulaflous A, Ferchichi A, Kong H, Mouzeyar S, Bouzidi MF. DNA Res 20 67-78 (2013)
  197. The ubiquitin conjugating enzyme, UbcM2, engages in novel interactions with components of cullin-3 based E3 ligases. Plafker KS, Singer JD, Plafker SM. Biochemistry 48 3527-3537 (2009)
  198. Analysis of Skp1 glycosylation and nuclear enrichment in Dictyostelium. Sassi S, Sweetinburgh M, Erogul J, Zhang P, Teng-Umnuay P, West CM. Glycobiology 11 283-295 (2001)
  199. Architecture of the CBF3-centromere complex of the budding yeast kinetochore. Yan K, Zhang Z, Yang J, McLaughlin SH, Barford D. Nat Struct Mol Biol 25 1103-1110 (2018)
  200. FBXL5 interacts with p150Glued and regulates its ubiquitination. Zhang N, Liu J, Ding X, Aikhionbare F, Jin C, Yao X. Biochem Biophys Res Commun 359 34-39 (2007)
  201. Genome-wide identification and domain organization of lectin domains in cucumber. Dang L, Van Damme EJM. Plant Physiol Biochem 108 165-176 (2016)
  202. Interference with the expression of β-catenin reverses cisplatin resistance in A2780/DDP cells and inhibits the progression of ovarian cancer in mouse model. Zhao H, Wei W, Sun Y, Gao J, Wang Q, Zheng J. DNA Cell Biol 34 55-62 (2015)
  203. Nonstructural protein P7-2 encoded by Rice black-streaked dwarf virus interacts with SKP1, a core subunit of SCF ubiquitin ligase. Wang Q, Tao T, Han Y, Chen X, Fan Z, Li D, Yu J, Han C. Virol J 10 325 (2013)
  204. Bacterial effector-involved temporal and spatial regulation by hijack of the host ubiquitin pathway. Kubori T, Nagai H. Front Microbiol 2 145 (2011)
  205. Characterization of the role of COP9 signalosome in regulating cullin E3 ubiquitin ligase activity. Choo YY, Boh BK, Lou JJ, Eng J, Leck YC, Anders B, Smith PG, Hagen T. Mol Biol Cell 22 4706-4715 (2011)
  206. Letter Evolution of ribonuclease inhibitor by exon duplication. Haigis MC, Haag ES, Raines RT. Mol Biol Evol 19 959-963 (2002)
  207. Functional insights from a surface antigen mRNA-bound proteome. Melo do Nascimento L, Egler F, Arnold K, Papavasiliou N, Clayton C, Erben E. Elife 10 e68136 (2021)
  208. Identifying determinants of cullin binding specificity among the three functionally different Drosophila melanogaster Roc proteins via domain swapping. Reynolds PJ, Simms JR, Duronio RJ. PLoS One 3 e2918 (2008)
  209. Rice black streaked dwarf virus P7-2 forms a SCF complex through binding to Oryza sativa SKP1-like proteins, and interacts with GID2 involved in the gibberellin pathway. Tao T, Zhou CJ, Wang Q, Chen XR, Sun Q, Zhao TY, Ye JC, Wang Y, Zhang ZY, Zhang YL, Guo ZJ, Wang XB, Li DW, Yu JL, Han CG. PLoS One 12 e0177518 (2017)
  210. Statin-induced depletion of geranylgeranyl pyrophosphate inhibits cell proliferation by a novel pathway of Skp2 degradation. Vosper J, Masuccio A, Kullmann M, Ploner C, Geley S, Hengst L. Oncotarget 6 2889-2902 (2015)
  211. Structural basis for assembly of the CBF3 kinetochore complex. Leber V, Nans A, Singleton MR. EMBO J 37 269-281 (2018)
  212. Structural basis for dimerization quality control. Mena EL, Jevtić P, Greber BJ, Gee CL, Lew BG, Akopian D, Nogales E, Kuriyan J, Rape M. Nature 586 452-456 (2020)
  213. Ubiquitin-dependent proteolysis in G1/S phase control and its relationship with tumor susceptibility. Diehl JA, Ponugoti B. Genes Cancer 1 717-724 (2010)
  214. ERα, SKP2 and E2F-1 form a feed forward loop driving late ERα targets and G1 cell cycle progression. Zhou W, Srinivasan S, Nawaz Z, Slingerland JM. Oncogene 33 2341-2353 (2014)
  215. Overexpression of PSK1, a SKP1-like gene homologue, from Paeonia suffruticosa, confers salinity tolerance in Arabidopsis. Hao Q, Ren H, Zhu J, Wang L, Huang S, Liu Z, Gao Z, Shu Q. Plant Cell Rep 36 151-162 (2017)
  216. The SKP1-like gene family of Arabidopsis exhibits a high degree of differential gene expression and gene product interaction during development. Dezfulian MH, Soulliere DM, Dhaliwal RK, Sareen M, Crosby WL. PLoS One 7 e50984 (2012)
  217. Characterization of a cytoplasmic glucosyltransferase that extends the core trisaccharide of the Toxoplasma Skp1 E3 ubiquitin ligase subunit. Rahman K, Mandalasi M, Zhao P, Sheikh MO, Taujale R, Kim HW, van der Wel H, Matta K, Kannan N, Glushka JN, Wells L, West CM. J Biol Chem 292 18644-18659 (2017)
  218. Cooperative organization in a macromolecular complex. Seeliger MA, Breward SE, Friedler A, Schon O, Itzhaki LS. Nat Struct Biol 10 718-724 (2003)
  219. Identification of SFBB-containing canonical and noncanonical SCF complexes in pollen of apple (Malus × domestica). Minamikawa MF, Koyano R, Kikuchi S, Koba T, Sassa H. PLoS One 9 e97642 (2014)
  220. Identification of a unique family of F-box proteins in atadenoviruses. Both GW. Virology 304 425-433 (2002)
  221. Natural variation in WHITE-CORE RATE 1 regulates redox homeostasis in rice endosperm to affect grain quality. Wu B, Yun P, Zhou H, Xia D, Gu Y, Li P, Yao J, Zhou Z, Chen J, Liu R, Cheng S, Zhang H, Zheng Y, Lou G, Chen P, Wan S, Zhou M, Li Y, Gao G, Zhang Q, Li X, Lian X, He Y. Plant Cell 34 1912-1932 (2022)
  222. Oridonin enhances the radiosensitivity of lung cancer cells by upregulating Bax and downregulating Bcl-2. Li S, Shi D, Zhang L, Yang F, Cheng G. Exp Ther Med 16 4859-4864 (2018)
  223. Ras regulates SCF(β-TrCP) protein activity and specificity via its effector protein NORE1A. Schmidt ML, Donninger H, Clark GJ. J Biol Chem 289 31102-31110 (2014)
  224. SKP1-like-related genes interact with various F-box proteins and may form SCF complexes with Cullin-F-box proteins in wheat. Hong MJ, Kim DY, Seo YW. Mol Biol Rep 40 969-981 (2013)
  225. SKR-1, a homolog of Skp1 and a member of the SCF(SEL-10) complex, regulates sex-determination and LIN-12/Notch signaling in C. elegans. Killian DJ, Harvey E, Johnson P, Otori M, Mitani S, Xue D. Dev Biol 322 322-331 (2008)
  226. Structural Mimicry by a Bacterial F Box Effector Hijacks the Host Ubiquitin-Proteasome System. Wong K, Perpich JD, Kozlov G, Cygler M, Abu Kwaik Y, Gehring K. Structure 25 376-383 (2017)
  227. A Structure-Based Strategy for Engineering Selective Ubiquitin Variant Inhibitors of Skp1-Cul1-F-Box Ubiquitin Ligases. Gorelik M, Manczyk N, Pavlenco A, Kurinov I, Sidhu SS, Sicheri F. Structure 26 1226-1236.e3 (2018)
  228. Pan- and core- network analysis of co-expression genes in a model plant. He F, Maslov S. Sci Rep 6 38956 (2016)
  229. Skp1, a component of E3 ubiquitin ligase, is necessary for growth, sporulation, development and pathogenicity in rice blast fungus (Magnaporthe oryzae). Prakash C, Manjrekar J, Chattoo BB. Mol Plant Pathol 17 903-919 (2016)
  230. Identification of a conserved F-box protein 6 interactor essential for endocytosis and cytokinesis in fission yeast. Jourdain I, Spielewoy N, Thompson J, Dhut S, Yates JR, Toda T. Biochem J 420 169-177 (2009)
  231. Interference of Notch 2 inhibits the progression of gliomas and induces cell apoptosis by induction of the cell cycle at the G0/G1 phase. Yu HP, Qi ST, Feng WF, Zhang GZ, Zhang HP, Tian JJ. Mol Med Rep 11 734-738 (2015)
  232. RIG-I Promotes Cell Death in Hepatocellular Carcinoma by Inducing M1 Polarization of Perineal Macrophages Through the RIG-I/MAVS/NF-κB Pathway. Zhou B, Li C, Yang Y, Wang Z. Onco Targets Ther 13 8783-8794 (2020)
  233. The Role of F-Box Proteins during Viral Infection. Correa RL, Bruckner FP, de Souza Cascardo R, Alfenas-Zerbini P. Int J Mol Sci 14 4030-4049 (2013)
  234. Variants in SKP1, PROB1, and IL17B genes at keratoconus 5q31.1-q35.3 susceptibility locus identified by whole-exome sequencing. Karolak JA, Gambin T, Pitarque JA, Molinari A, Jhangiani S, Stankiewicz P, Lupski JR, Gajecka M. Eur J Hum Genet 25 73-78 (2017)
  235. A Combination Therapy with Baicalein and Taxol Promotes Mitochondria-Mediated Cell Apoptosis: Involving in Akt/β-Catenin Signaling Pathway. Pan Q, Xue M, Xiao SS, Wan YJ, Xu DB. DNA Cell Biol 35 646-656 (2016)
  236. Cisplatin in combination with programmed cell death protein 5 increases antitumor activity in prostate cancer cells by promoting apoptosis. Zhu W, Li Y, Gao L. Mol Med Rep 11 4561-4566 (2015)
  237. Comparative profiling of gene expression in Camellia sinensis L. cultivar AnJiBaiCha leaves during periodic albinism. Yuan L, Xiong LG, Deng TT, Wu Y, Li J, Liu SQ, Huang JA, Liu ZH. Gene 561 23-29 (2015)
  238. Energetics of OCP1-OCP2 complex formation. Tan A, Tanner JJ, Henzl MT. Biophys Chem 134 64-71 (2008)
  239. Glycosylation Promotes the Random Coil to Helix Transition in a Region of a Protist Skp1 Associated with F-Box Binding. Xu X, Eletsky A, Sheikh MO, Prestegard JH, West CM. Biochemistry 57 511-515 (2018)
  240. Molecular dynamics simulations elucidate the mode of protein recognition by Skp1 and the F-box domain in the SCF complex. Chandra Dantu S, Nathubhai Kachariya N, Kumar A. Proteins 84 159-171 (2016)
  241. Quantitative analysis and prediction of curvature in leucine-rich repeat proteins. Hindle KL, Bella J, Lovell SC. Proteins 77 342-358 (2009)
  242. SKP1-CULLIN1-F-box (SCF)-mediated DRG2 degradation facilitated chemotherapeutic drugs induced apoptosis in hepatocellular carcinoma cells. Chen J, Shen BY, Deng XX, Zhan Q, Peng CH. Biochem Biophys Res Commun 420 651-655 (2012)
  243. Serendipitous SAD Solution for DMSO-Soaked SOCS2-ElonginC-ElonginB Crystals Using Covalently Incorporated Dimethylarsenic: Insights into Substrate Receptor Conformational Flexibility in Cullin RING Ligases. Gadd MS, Bulatov E, Ciulli A. PLoS One 10 e0131218 (2015)
  244. Skp2B stimulates mammary gland development by inhibiting REA, the repressor of the estrogen receptor. Umanskaya K, Radke S, Chander H, Monardo R, Xu X, Pan ZQ, O'Connell MJ, Germain D. Mol Cell Biol 27 7615-7622 (2007)
  245. The FBXL family of F-box proteins: variations on a theme. Mason B, Laman H. Open Biol 10 200319 (2020)
  246. Cloning, expression and characterization of COI1 gene (AsCOI1) from Aquilaria sinensis (Lour.) Gilg. Liao Y, Wei J, Xu Y, Zhang Z. Acta Pharm Sin B 5 473-481 (2015)
  247. Effects of wortmannin on phosphorylation of PDK1, GSK3-beta, PTEN and expression of Skp2 mRNA after ischemia/reperfusion injury in the mouse kidney. Zheng X, Xie L, Qin J, Shen H, Chen Z, Jin Y. Int Urol Nephrol 40 185-192 (2008)
  248. Interference of Skp2 effectively inhibits the development and metastasis of colon carcinoma. Chen H, Mo X, Yu J, Huang S, Huang Z, Gao L. Mol Med Rep 10 1129-1135 (2014)
  249. Investigating the molecular basis of Siah1 and Siah2 E3 ubiquitin ligase substrate specificity. Gopalsamy A, Hagen T, Swaminathan K. PLoS One 9 e106547 (2014)
  250. Involvement of Ubiquitin-Conjugating Enzyme (E2 Gene Family) in Ripening Process and Response to Cold and Heat Stress of Vitis vinifera. Gao Y, Wang Y, Xin H, Li S, Liang Z. Sci Rep 7 13290 (2017)
  251. Novel Cul3 binding proteins function to remodel E3 ligase complexes. Wimuttisuk W, West M, Davidge B, Yu K, Salomon A, Singer JD. BMC Cell Biol 15 28 (2014)
  252. Phytochemical library screening reveals betulinic acid as a novel Skp2-SCF E3 ligase inhibitor in non-small cell lung cancer. He DH, Chen YF, Zhou YL, Zhang SB, Hong M, Yu X, Wei SF, Fan XZ, Li SY, Wang Q, Lu Y, Liu YQ. Cancer Sci 112 3218-3232 (2021)
  253. Structure of yeast kinetochore Ndc10 DNA-binding domain reveals unexpected evolutionary relationship to tyrosine recombinases. Perriches T, Singleton MR. J Biol Chem 287 5173-5179 (2012)
  254. Transfer of Ho endonuclease and Ufo1 to the proteasome by the UbL-UbA shuttle protein, Ddi1, analysed by complex formation in vitro. Voloshin O, Bakhrat A, Herrmann S, Raveh D. PLoS One 7 e39210 (2012)
  255. USP2 is an SKP2 deubiquitylase that stabilizes both SKP2 and its substrates. Zhang F, Zhao Y, Sun Y. J Biol Chem 297 101109 (2021)
  256. ARABIDILLO proteins have a novel and conserved domain structure important for the regulation of their stability. Nibau C, Gibbs DJ, Bunting KA, Moody LA, Smiles EJ, Tubby JA, Bradshaw SJ, Coates JC. Plant Mol Biol 75 77-92 (2011)
  257. CrWSKP1, an SKP1-like Gene, Is Involved in the Self-Incompatibility Reaction of "Wuzishatangju" (Citrus reticulata Blanco). Li P, Miao H, Ma Y, Wang L, Hu G, Ye Z, Zhao J, Qin Y. Int J Mol Sci 16 21695-21710 (2015)
  258. Fbxl17 is rearranged in breast cancer and loss of its activity leads to increased global O-GlcNAcylation. Mason B, Flach S, Teixeira FR, Manzano Garcia R, Rueda OM, Abraham JE, Caldas C, Edwards PAW, Laman H. Cell Mol Life Sci 77 2605-2620 (2020)
  259. Fbxo28 promotes mitotic progression and regulates topoisomerase IIα-dependent DNA decatenation. Kratz AS, Richter KT, Schlosser YT, Schmitt M, Shumilov A, Delecluse HJ, Hoffmann I. Cell Cycle 15 3419-3431 (2016)
  260. Skp1p regulates Soi3p/Rav1p association with endosomal membranes but is not required for vacuolar ATPase assembly. Brace EJ, Parkinson LP, Fuller RS. Eukaryot Cell 5 2104-2113 (2006)
  261. The crystal structure of the Sgt1-Skp1 complex: the link between Hsp90 and both SCF E3 ubiquitin ligases and kinetochores. Willhoft O, Kerr R, Patel D, Zhang W, Al-Jassar C, Daviter T, Millson SH, Thalassinos K, Vaughan CK. Sci Rep 7 41626 (2017)
  262. Using the E4orf6-Based E3 Ubiquitin Ligase as a Tool To Analyze the Evolution of Adenoviruses. Gilson T, Blanchette P, Ballmann MZ, Papp T, Pénzes JJ, Benkő M, Harrach B, Branton PE. J Virol 90 7350-7367 (2016)
  263. Cloning and Functional Characterization of Two BTB Genes in the Predatory Mite Metaseiulus occidentalis. Wu K, Hoy MA. PLoS One 10 e0144291 (2015)
  264. Computational screening of known broad-spectrum antiviral small organic molecules for potential influenza HA stem inhibitors. Mathew S, Al Thani AA, Yassine HM. PLoS One 13 e0203148 (2018)
  265. research-article Coupling histone homeostasis to centromere integrity via the ubiquitin-proteasome system. Takayama Y, Toda T. Cell Div 5 18 (2010)
  266. Cullin1-P is an Essential Component of Non-Self Recognition System in Self-Incompatibility in Petunia. Kubo KI, Tsukahara M, Fujii S, Murase K, Wada Y, Entani T, Iwano M, Takayama S. Plant Cell Physiol 57 2403-2416 (2016)
  267. Genome-wide analysis of genes encoding core components of the ubiquitin system in soybean (Glycine max) reveals a potential role for ubiquitination in host immunity against soybean cyst nematode. Zhang C, Song L, Choudhary MK, Zhou B, Sun G, Broderick K, Giesler L, Zeng L. BMC Plant Biol 18 149 (2018)
  268. Overexpression of microRNA‑125a‑3p effectively inhibits the cell growth and invasion of lung cancer cells by regulating the mouse double minute 2 homolog/p53 signaling pathway. Li S, Li X, Zhao H, Gao M, Wang F, Li W. Mol Med Rep 12 5482-5486 (2015)
  269. Robust Prediction of Prognosis and Immunotherapeutic Response for Clear Cell Renal Cell Carcinoma Through Deep Learning Algorithm. Chen S, Zhang E, Jiang L, Wang T, Guo T, Gao F, Zhang N, Wang X, Zheng J. Front Immunol 13 798471 (2022)
  270. The Structural Differences between a Glycoprotein Specific F-Box Protein Fbs1 and Its Homologous Protein FBG3. Kumanomidou T, Nishio K, Takagi K, Nakagawa T, Suzuki A, Yamane T, Tokunaga F, Iwai K, Murakami A, Yoshida Y, Tanaka K, Mizushima T. PLoS One 10 e0140366 (2015)
  271. Chlorovirus Skp1-binding ankyrin repeat protein interplay and mimicry of cellular ubiquitin ligase machinery. Noel EA, Kang M, Adamec J, Van Etten JL, Oyler GA. J Virol 88 13798-13810 (2014)
  272. Discriminative SKP2 Interactions with CDK-Cyclin Complexes Support a Cyclin A-Specific Role in p27KIP1 Degradation. Salamina M, Montefiore BC, Liu M, Wood DJ, Heath R, Ault JR, Wang LZ, Korolchuk S, Baslé A, Pastok MW, Reeks J, Tatum NJ, Sobott F, Arold ST, Pagano M, Noble MEM, Endicott JA. J Mol Biol 433 166795 (2021)
  273. Expression of programmed cell death 5 protein inhibits progression of lung carcinoma in vitro and in vivo via the mitochondrial apoptotic pathway. Xu S, Sui G, Yuan L, Zou Z. Mol Med Rep 10 2059-2064 (2014)
  274. Isolation and characterization of kelch repeat-containing F-box proteins from colored wheat. Hong MJ, Kim DY, Choi HI, Seo YW, Kim JB. Mol Biol Rep 47 1129-1141 (2020)
  275. Molecular structures and interactions in the yeast kinetochore. Cho US, Corbett KD, Al-Bassam J, Bellizzi JJ, De Wulf P, Espelin CW, Miranda JJ, Simons K, Wei RR, Sorger PK, Harrison SC. Cold Spring Harb Symp Quant Biol 75 395-401 (2010)
  276. Remodeling of the SCF complex-mediated ubiquitination system by compositional alteration of incorporated F-box proteins. Kato M, Kito K, Ota K, Ito T. Proteomics 10 115-123 (2010)
  277. SKP2 siRNA inhibits the degradation of P27kip1 and down-regulates the expression of MRP in HL-60/A cells. Xiao J, Yin S, Li Y, Xie S, Nie D, Ma L, Wang X, Wu Y, Feng J. Acta Biochim Biophys Sin (Shanghai) 41 699-708 (2009)
  278. The expression of the F-box protein Skp2 is negatively associated with p27 expression in human pituitary tumors. Musat M, Korbonits M, Pyle M, Gueorguiev M, Kola B, Morris DG, Powell M, Dumitrache C, Poiana C, Grossman AB. Pituitary 5 235-242 (2002)
  279. Transcriptome analysis of auxin-regulated genes of Arabidopsis thaliana. Huang YC, Chang YL, Hsu JJ, Chuang HW. Gene 420 118-124 (2008)
  280. Allopregnanolone Modulates GABAAR-Dependent CaMKIIδ3 and BDNF to Protect SH-SY5Y Cells Against 6-OHDA-Induced Damage. Wang T, Ye X, Bian W, Chen Z, Du J, Li M, Zhou P, Cui H, Ding YQ, Qi S, Liao M, Sun C. Front Cell Neurosci 13 569 (2019)
  281. Cucurbit Chlorotic Yellows Virus p22 Protein Interacts with Cucumber SKP1LB1 and Its F-Box-Like Motif Is Crucial for Silencing Suppressor Activity. Chen S, Sun X, Shi Y, Wei Y, Han X, Li H, Chen L, Sun B, Sun H, Shi Y. Viruses 11 E818 (2019)
  282. Direct catalysis of lysine 48-linked polyubiquitin chains by the ubiquitin-activating enzyme. Huzil JT, Pannu R, Ptak C, Garen G, Ellison MJ. J Biol Chem 282 37454-37460 (2007)
  283. Expansion and Functional Diversification of SKP1-Like Genes in Wheat (Triticum aestivum L.). HajSalah El Beji I, Mouzeyar S, Bouzidi MF, Roche J. Int J Mol Sci 20 E3295 (2019)
  284. SCFFbxw5 targets kinesin-13 proteins to facilitate ciliogenesis. Schweiggert J, Habeck G, Hess S, Mikus F, Beloshistov R, Meese K, Hata S, Knobeloch KP, Melchior F. EMBO J 40 e107735 (2021)
  285. Skp1 Dimerization Conceals Its F-Box Protein Binding Site. Kim HW, Eletsky A, Gonzalez KJ, van der Wel H, Strauch EM, Prestegard JH, West CM. Biochemistry 59 1527-1536 (2020)
  286. The tumor suppressor FBXO31 preserves genomic integrity by regulating DNA replication and segregation through precise control of cyclin A levels. Dutta P, Islam S, Choppara S, Sengupta P, Kumar A, Kumar A, Wani MR, Chatterjee S, Santra MK. J Biol Chem 294 14879-14895 (2019)
  287. Transcriptional and post-transcriptional regulation of gene expression in submerged root cells of maize. Zhang Z, Zhang D, Zheng Y. Plant Signal Behav 4 132-135 (2009)
  288. Adapter-mediated substrate selection for endoplasmic reticulum-associated degradation. Corcoran K, Wang X, Lybarger L. J Biol Chem 284 17475-17487 (2009)
  289. Backbone and side chain assignments of human cell cycle regulatory protein S-phase kinase-associated protein 1. Kachariya NN, Dantu SC, Kumar A. Biomol NMR Assign 10 351-355 (2016)
  290. CDK4/6 inhibitor palbociclib promotes SARS-CoV-2 cell entry by down-regulating SKP2 dependent ACE2 degradation. Xiao Y, Yan Y, Chang L, Ji H, Sun H, Song S, Feng K, Nuermaimaiti A, Lu Z, Wang L. Antiviral Res 212 105558 (2023)
  291. Letter Cell cycle-dependent regulation of cytoglobin by Skp2. John R, Atri Y, Chand V, Jaiswal N, Raj K, Nag A. FEBS Lett 591 3507-3522 (2017)
  292. Computationally designed peptide inhibitors of the ubiquitin E3 ligase SCF(Fbx4). Lee J, Sammond DW, Fiorini Z, Saludes JP, Resch MG, Hao B, Wang W, Yin H, Liu X. Chembiochem 14 445-451 (2013)
  293. Evolution of the F-box gene family in Euarchontoglires: gene number variation and selection patterns. Wang A, Fu M, Jiang X, Mao Y, Li X, Tao S. PLoS One 9 e94899 (2014)
  294. Genome-wide characterization, evolution, structure, and expression analysis of the F-box genes in Caenorhabditis. Wang A, Chen W, Tao S. BMC Genomics 22 889 (2021)
  295. Inhibition of S-phase kinase-associated protein 2-mediated p27 degradation suppresses tumorigenesis and the progression of hepatocellular carcinoma. Qi M, Liu D, Zhang S, Hu P, Sang T. Mol Med Rep 11 3934-3940 (2015)
  296. Modification of Cul1 regulates its association with proteasomal subunits. Bloom J, Peschiaroli A, Demartino G, Pagano M. Cell Div 1 5 (2006)
  297. Retracted: Allopregnanolone restores the tyrosine hydroxylase-positive neurons and motor performance in a 6-OHDA-injected mouse model. Chen ZC, Wang TT, Bian W, Ye X, Li MY, Du JJ, Zhou P, Cui HR, Ding YQ, Ren YH, Qi SS, Yuan YY, Liao M, Sun CY. CNS Neurosci Ther 26 1069-1082 (2020)
  298. Systemwide disassembly and assembly of SCF ubiquitin ligase complexes. Baek K, Scott DC, Henneberg LT, King MT, Mann M, Schulman BA. Cell 186 1895-1911.e21 (2023)
  299. Targeting protein ubiquitination for drug discovery. What is in the drug discovery toolbox? Swinney DC. Drug Discov Today 6 244-250 (2001)
  300. The FP domains of PI31 and Fbxo7 have the same protein fold but very different modes of protein-protein interaction. Shang J, Huang X, Du Z. J Biomol Struct Dyn 33 1528-1538 (2015)
  301. Bipartite binding of the N terminus of Skp2 to cyclin A. Kelso S, Orlicky S, Beenstock J, Ceccarelli DF, Kurinov I, Gish G, Sicheri F. Structure 29 975-988.e5 (2021)
  302. Determination of reliable reference genes for gene expression studies in Chinese chive (Allium tuberosum) based on the transcriptome profiling. Tong J, Hu M, Han B, Ji Y, Wang B, Liang H, Liu M, Wu Z, Liu N. Sci Rep 11 16558 (2021)
  303. Expression, purification and crystallization of the FP domain of the human F-box protein Fbxo7. Shang J, Wang G, Yang Y, Huang X, Du Z. Acta Crystallogr Sect F Struct Biol Cryst Commun 69 1097-1099 (2013)
  304. Identification and characterization of cul-3b, a novel hominine CUL-3 transcript variant. Lu L, Zhou ZM, Huang XY, Xu M, Yin LL, Wang H, Xu ZY, Sha JH. Asian J Androl 7 205-211 (2005)
  305. Oxygen-dependent regulation of E3(SCF)ubiquitin ligases and a Skp1-associated JmjD6 homolog in development of the social amoeba Dictyostelium. Boland AW, Gas-Pascual E, Nottingham BL, van der Wel H, Daniel NG, Sheikh MO, Schafer CM, West CM. J Biol Chem 298 102305 (2022)
  306. Shrinking of repeating unit length in leucine-rich repeats from double-stranded DNA viruses. Matsushima N, Miyashita H, Tamaki S, Kretsinger RH. Arch Virol 166 43-64 (2021)
  307. Ubiquitin-independent, Proteasome-mediated targeted degradation of KRAS in pancreatic adenocarcinoma cells using an engineered ornithine decarboxylase/antizyme system. Ma Y, Xu J, Huang P, Bai X, Gao H. IUBMB Life 71 57-65 (2019)
  308. Ubiquitinating a phosphorylated Cdk inhibitor on the blades of the Cdc4 beta-propeller. Jackson PK. Cell 112 142-144 (2003)
  309. A Comprehensive Assessment of Genetic and Epigenetic Alterations Identifies Frequent Variations Impacting Six Prototypic SCF Complex Members. Campos Gudiño R, Farrell AC, Neudorf NM, McManus KJ. Int J Mol Sci 23 84 (2021)
  310. All change: protein conformation and the ubiquitination reaction cascade. Riedinger C, Endicott JA. F1000 Biol Rep 1 19 (2009)
  311. Bridging the gap between SCF and ubiquitin transfer. Lima CD. Structure 10 741-742 (2002)
  312. Impact of siRNA targeting pirh2 on proliferation and cell cycle control of the lung adenocarcinoma cell line A549. Su Y, Zhu L, Jin Y, Zhang X, Zhou Q, Bai M. Front Med China 1 359-363 (2007)
  313. Molecular characterization and tissue localization of an F-box only protein from silkworm, Bombyx mori. Shen Y, Zhang T, Chen J, Lv Z, Chen J, Wang D, Nie Z, He P, Wang J, Zheng Q, Sheng Q, Wu X, Zhang Y. Comp Funct Genomics 416040 (2009)
  314. Redox sensing molecular mechanism of an iron metabolism regulatory protein FBXL5. Wei Y, Yuan H, Xu P, Tan X. Arch Biochem Biophys 616 30-39 (2017)
  315. Retraction of Publication Retracted Article: Interference of Mucin 1 inhibits the growth of liver cancer cells by inducing mitochondria-mediated and death receptor-mediated cell apoptosis. Tumour Biol 36 559 (2015)
  316. Screening and computational analysis of colorectal associated non-synonymous polymorphism in CTNNB1 gene in Pakistani population. Razak S, Bibi N, Dar JA, Afsar T, Almajwal A, Parveen Z, Jahan S. BMC Med Genet 20 171 (2019)
  317. A noncanonical function of SKP1 regulates the switch between autophagy and unconventional secretion. Li J, Krause GJ, Gui Q, Kaushik S, Rona G, Zhang Q, Liang FX, Dhabaria A, Anerillas C, Martindale JL, Vasilyev N, Askenazi M, Ueberheide B, Nudler E, Gorospe M, Cuervo AM, Pagano M. Sci Adv 9 eadh1134 (2023)
  318. Functional Characterization of Non-Ankyrin Repeat Domains of Orientia tsutsugamushi Ank Effectors Reveals Their Importance for Molecular Pathogenesis. Gupta S, Hunt JR, Adcox HE, Andersen SE, Gumpf JJ, Green RS, Beyer AR, Evans SM, VieBrock L, Read CB, Weber MM, Carlyon JA. Infect Immun 90 e0062821 (2022)
  319. Host F-Box Protein 22 Enhances the Uptake of Brucella by Macrophages and Drives a Sustained Release of Proinflammatory Cytokines through Degradation of the Anti-Inflammatory Effector Proteins of Brucella. Mazumdar V, Joshi K, Nandi BR, Namani S, Gupta VK, Radhakrishnan G. Infect Immun 90 e0006022 (2022)
  320. NUMB facilitates autophagy initiation through targeting SCFβ-TrCP2 complex. Li H, Shu S, Zhou M, Chen Y, Xiao A, Ma Y, Zhu F, Hu Z, Nie J. Cell Death Differ 29 1409-1422 (2022)
  321. The roles of a novel CDKB/KRP/FB3 cell cycle core complex in rice gametes and initiation of embryogenesis. Xu H, Bartley L, Libault M, Sundaresan V, Fu H, Russell S. Plant Reprod 36 301-320 (2023)
  322. hGRAD: A versatile "one-fits-all" system to acutely deplete RNA binding proteins from condensates. Arnold B, Riegger RJ, Okuda EK, Slišković I, Keller M, Bakisoglu C, McNicoll F, Zarnack K, Müller-McNicoll M. J Cell Biol 223 e202304030 (2024)


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