1n11 Citations

Crystal structure of a 12 ANK repeat stack from human ankyrinR.

Michaely P, Tomchick DR, Machius M, Anderson RG
EMBO J 21 6387-96 (2002)
Cited: 161 times
EuropePMC logo PMID: 12456646

Abstract

Ankyrins are multifunctional adaptors that link specific proteins to the membrane-associated, spectrin- actin cytoskeleton. The N-terminal, 'membrane-binding' domain of ankyrins contains 24 ANK repeats and mediates most binding activities. Repeats 13-24 are especially active, with known sites of interaction for the Na/K ATPase, Cl/HCO(3) anion exchanger, voltage-gated sodium channel, clathrin heavy chain and L1 family cell adhesion molecules. Here we report the crystal structure of a human ankyrinR construct containing ANK repeats 13-24 and a portion of the spectrin-binding domain. The ANK repeats are observed to form a contiguous spiral stack with which the spectrin-binding domain fragment associates as an extended strand. The structural information has been used to construct models of all 24 repeats of the membrane-binding domain as well as the interactions of the repeats with the Cl/HCO(3) anion exchanger and clathrin. These models, together with available binding studies, suggest that ion transporters such as the anion exchanger associate in a large central cavity formed by the ANK repeat spiral, while clathrin and cell adhesion molecules associate with specific regions outside this cavity.

Reviews - 1n11 mentioned but not cited (7)

  1. Molecular mechanism of TRP channels. Zheng J. Compr Physiol 3 221-242 (2013)
  2. A primer on ankyrin repeat function in TRP channels and beyond. Gaudet R. Mol Biosyst 4 372-379 (2008)
  3. Poxviral ankyrin proteins. Herbert MH, Squire CJ, Mercer AA. Viruses 7 709-738 (2015)
  4. Emerging Treatment Models in Rheumatology: Antiphospholipid Syndrome and Pregnancy: Pathogenesis to Translation. Abrahams VM, Chamley LW, Salmon JE. Arthritis Rheumatol 69 1710-1721 (2017)
  5. What lessons can be learned from studying the folding of homologous proteins? Nickson AA, Clarke J. Methods 52 38-50 (2010)
  6. Membrane and inhibitor interactions of intracellular phospholipases A2. Mouchlis VD, Dennis EA. Adv Biol Regul 61 17-24 (2016)
  7. Biophysical highlights from 54 years of macromolecular crystallography. Richardson JS, Richardson DC. Biophys J 106 510-525 (2014)

Articles - 1n11 mentioned but not cited (42)

  1. Crystal structure of a 12 ANK repeat stack from human ankyrinR. Michaely P, Tomchick DR, Machius M, Anderson RG. EMBO J 21 6387-6396 (2002)
  2. Selection of optimal variants of Gō-like models of proteins through studies of stretching. Sułkowska JI, Cieplak M. Biophys J 95 3174-3191 (2008)
  3. Molecular architecture and subunit organization of TRPA1 ion channel revealed by electron microscopy. Cvetkov TL, Huynh KW, Cohen MR, Moiseenkova-Bell VY. J Biol Chem 286 38168-38176 (2011)
  4. Directionality of temperature activation in mouse TRPA1 ion channel can be inverted by single-point mutations in ankyrin repeat six. Jabba S, Goyal R, Sosa-Pagán JO, Moldenhauer H, Wu J, Kalmeta B, Bandell M, Latorre R, Patapoutian A, Grandl J. Neuron 82 1017-1031 (2014)
  5. SHANK proteins limit integrin activation by directly interacting with Rap1 and R-Ras. Lilja J, Zacharchenko T, Georgiadou M, Jacquemet G, De Franceschi N, Peuhu E, Hamidi H, Pouwels J, Martens V, Nia FH, Beifuss M, Boeckers T, Kreienkamp HJ, Barsukov IL, Ivaska J. Nat Cell Biol 19 292-305 (2017)
  6. TRPC6 G757D Loss-of-Function Mutation Associates with FSGS. Riehle M, Büscher AK, Gohlke BO, Kaßmann M, Kolatsi-Joannou M, Bräsen JH, Nagel M, Becker JU, Winyard P, Hoyer PF, Preissner R, Krautwurst D, Gollasch M, Weber S, Harteneck C. J Am Soc Nephrol 27 2771-2783 (2016)
  7. Membranes serve as allosteric activators of phospholipase A2, enabling it to extract, bind, and hydrolyze phospholipid substrates. Mouchlis VD, Bucher D, McCammon JA, Dennis EA. Proc Natl Acad Sci U S A 112 E516-25 (2015)
  8. Variants in ASB10 are associated with open-angle glaucoma. Pasutto F, Keller KE, Weisschuh N, Sticht H, Samples JR, Yang YF, Zenkel M, Schlötzer-Schrehardt U, Mardin CY, Frezzotti P, Edmunds B, Kramer PL, Gramer E, Reis A, Acott TS, Wirtz MK. Hum Mol Genet 21 1336-1349 (2012)
  9. Sequencing analysis of 20,000 full-length cDNA clones from cassava reveals lineage specific expansions in gene families related to stress response. Sakurai T, Plata G, Rodríguez-Zapata F, Seki M, Salcedo A, Toyoda A, Ishiwata A, Tohme J, Sakaki Y, Shinozaki K, Ishitani M. BMC Plant Biol 7 66 (2007)
  10. Localizing the membrane binding region of Group VIA Ca2+-independent phospholipase A2 using peptide amide hydrogen/deuterium exchange mass spectrometry. Hsu YH, Burke JE, Li S, Woods VL, Dennis EA. J Biol Chem 284 23652-23661 (2009)
  11. Stereocilia-staircase spacing is influenced by myosin III motors and their cargos espin-1 and espin-like. Ebrahim S, Avenarius MR, Grati M, Krey JF, Windsor AM, Sousa AD, Ballesteros A, Cui R, Millis BA, Salles FT, Baird MA, Davidson MW, Jones SM, Choi D, Dong L, Raval MH, Yengo CM, Barr-Gillespie PG, Kachar B. Nat Commun 7 10833 (2016)
  12. Detection of phosphatidylserine-positive exosomes as a diagnostic marker for ovarian malignancies: a proof of concept study. Lea J, Sharma R, Yang F, Zhu H, Ward ES, Schroit AJ. Oncotarget 8 14395-14407 (2017)
  13. Structural basis of diverse membrane target recognitions by ankyrins. Wang C, Wei Z, Chen K, Ye F, Yu C, Bennett V, Zhang M. Elife 3 (2014)
  14. The structure of iPLA2β reveals dimeric active sites and suggests mechanisms of regulation and localization. Malley KR, Koroleva O, Miller I, Sanishvili R, Jenkins CM, Gross RW, Korolev S. Nat Commun 9 765 (2018)
  15. Secondary structure, mechanical stability, and location of transition state of proteins. Li MS. Biophys J 93 2644-2654 (2007)
  16. Structural and Energetic Characterization of the Ankyrin Repeat Protein Family. Parra RG, Espada R, Verstraete N, Ferreiro DU. PLoS Comput Biol 11 e1004659 (2015)
  17. Cryo-EM structure of Saccharomyces cerevisiae target of rapamycin complex 2. Karuppasamy M, Kusmider B, Oliveira TM, Gaubitz C, Prouteau M, Loewith R, Schaffitzel C. Nat Commun 8 1729 (2017)
  18. Identification of contact sites between ankyrin and band 3 in the human erythrocyte membrane. Grey JL, Kodippili GC, Simon K, Low PS. Biochemistry 51 6838-6846 (2012)
  19. ThANKs for the repeat: Intracellular pathogens exploit a common eukaryotic domain. Voth DE. Cell Logist 1 128-132 (2011)
  20. Determination of structural models of the complex between the cytoplasmic domain of erythrocyte band 3 and ankyrin-R repeats 13-24. Kim S, Brandon S, Zhou Z, Cobb CE, Edwards SJ, Moth CW, Parry CS, Smith JA, Lybrand TP, Hustedt EJ, Beth AH. J Biol Chem 286 20746-20757 (2011)
  21. Architecture of the human erythrocyte ankyrin-1 complex. Vallese F, Kim K, Yen LY, Johnston JD, Noble AJ, Calì T, Clarke OB. Nat Struct Mol Biol 29 706-718 (2022)
  22. Potential Autoimmunity Resulting from Molecular Mimicry between SARS-CoV-2 Spike and Human Proteins. Nunez-Castilla J, Stebliankin V, Baral P, Balbin CA, Sobhan M, Cickovski T, Mondal AM, Narasimhan G, Chapagain P, Mathee K, Siltberg-Liberles J. Viruses 14 1415 (2022)
  23. Autoinhibition of ankyrin-B/G membrane target bindings by intrinsically disordered segments from the tail regions. Chen K, Li J, Wang C, Wei Z, Zhang M. Elife 6 e29150 (2017)
  24. Capturing coevolutionary signals inrepeat proteins. Espada R, Parra RG, Mora T, Walczak AM, Ferreiro DU. BMC Bioinformatics 16 207 (2015)
  25. Evolutionary, structural and functional interplay of the IκB family members. Basith S, Manavalan B, Gosu V, Choi S. PLoS One 8 e54178 (2013)
  26. Mechanical anisotropy of ankyrin repeats. Lee W, Zeng X, Rotolo K, Yang M, Schofield CJ, Bennett V, Yang W, Marszalek PE. Biophys J 102 1118-1126 (2012)
  27. N-terminal tetrapeptide T/SPLH motifs contribute to multimodal activation of human TRPA1 channel. Hynkova A, Marsakova L, Vaskova J, Vlachova V. Sci Rep 6 28700 (2016)
  28. Dynamic scaffolds for neuronal signaling: in silico analysis of the TANC protein family. Gasparini A, Tosatto SCE, Murgia A, Leonardi E. Sci Rep 7 6829 (2017)
  29. Structural basis for the membrane association of ankyrinG via palmitoylation. Fujiwara Y, Kondo HX, Shirota M, Kobayashi M, Takeshita K, Nakagawa A, Okamura Y, Kinoshita K. Sci Rep 6 23981 (2016)
  30. Structure, dynamics and assembly of the ankyrin complex on human red blood cell membrane. Xia X, Liu S, Zhou ZH. Nat Struct Mol Biol 29 698-705 (2022)
  31. Ankyrin Repeat Proteins of Orf Virus Influence the Cellular Hypoxia Response Pathway. Chen DY, Fabrizio JA, Wilkins SE, Dave KA, Gorman JJ, Gleadle JM, Fleming SB, Peet DJ, Mercer AA. J Virol 91 e01430-16 (2017)
  32. Filamins but not Janus kinases are substrates of the ASB2α cullin-ring E3 ubiquitin ligase in hematopoietic cells. Lamsoul I, Erard M, van der Ven PF, Lutz PG. PLoS One 7 e43798 (2012)
  33. Phosphorylation, Dephosphorylation, and Multiprotein Assemblies Regulate Dynamic Behavior of Neuronal Cytoskeleton: A Mini-Review. Kurochkina N, Bhaskar M, Yadav SP, Pant HC. Front Mol Neurosci 11 373 (2018)
  34. TRPA5, an Ankyrin Subfamily Insect TRP Channel, is Expressed in Antennae of Cydia pomonella (Lepidoptera: Tortricidae) in Multiple Splice Variants. Cattaneo AM, Bengtsson JM, Montagné N, Jacquin-Joly E, Rota-Stabelli O, Salvagnin U, Bassoli A, Witzgall P, Anfora G. J Insect Sci 16 83 (2016)
  35. Automated structure refinement for a protein heterodimer complex using limited EPR spectroscopic data and a rigid-body docking algorithm: a three-dimensional model for an ankyrin-CDB3 complex. Edwards SJ, Moth CW, Kim S, Brandon S, Zhou Z, Cobb CE, Hustedt EJ, Beth AH, Smith JA, Lybrand TP. J Phys Chem B 118 4717-4726 (2014)
  36. Structural modeling of the N-terminal signal-receiving domain of IκBα. Yazdi S, Durdagi S, Naumann M, Stein M. Front Mol Biosci 2 32 (2015)
  37. Ankyrin repeats in context with human population variation. Utgés JS, Tsenkov MI, Dietrich NJM, MacGowan SA, Barton GJ. PLoS Comput Biol 17 e1009335 (2021)
  38. Diets containing traditional and novel green leafy vegetables improve liver fatty acid profiles of spontaneously hypertensive rats. Johnson M, Pace RD, Dawkins NL, Willian KR. Lipids Health Dis 12 168 (2013)
  39. TRPA1 ankyrin repeat six interacts with a small molecule inhibitor chemotype. Tseng WC, Pryde DC, Yoger KE, Padilla KM, Antonio BM, Han S, Shanmugasundaram V, Gerlach AC. Proc Natl Acad Sci U S A 115 12301-12306 (2018)
  40. Analyses of Calcium-Independent Phospholipase A2beta (iPLA2β) in Biological Systems. Barbour SE, Ramanadham S. Methods Enzymol 583 119-141 (2017)
  41. The dipeptidyl peptidase IV inhibitors vildagliptin and K-579 inhibit a phospholipase C: a case of promiscuous scaffolds in proteins. Chakraborty S, Rendón-Ramírez A, Ásgeirsson B, Dutta M, Ghosh AS, Oda M, Venkatramani R, Rao BJ, Dandekar AM, Goñi FM. F1000Res 2 286 (2013)
  42. Adaptive GDDA-BLAST: fast and efficient algorithm for protein sequence embedding. Hong Y, Kang J, Lee D, van Rossum DB. PLoS One 5 e13596 (2010)


Reviews citing this publication (29)

  1. Phospholipase A2 enzymes: physical structure, biological function, disease implication, chemical inhibition, and therapeutic intervention. Dennis EA, Cao J, Hsu YH, Magrioti V, Kokotos G. Chem Rev 111 6130-6185 (2011)
  2. The ankyrin repeat as molecular architecture for protein recognition. Mosavi LK, Cammett TJ, Desrosiers DC, Peng ZY. Protein Sci 13 1435-1448 (2004)
  3. Discovery through the computational microscope. Lee EH, Hsin J, Sotomayor M, Comellas G, Schulten K. Structure 17 1295-1306 (2009)
  4. Organizing the fluid membrane bilayer: diseases linked to spectrin and ankyrin. Bennett V, Healy J. Trends Mol Med 14 28-36 (2008)
  5. Membrane domains based on ankyrin and spectrin associated with cell-cell interactions. Bennett V, Healy J. Cold Spring Harb Perspect Biol 1 a003012 (2009)
  6. Mechanotransduction and auditory transduction in Drosophila. Kernan MJ. Pflugers Arch 454 703-720 (2007)
  7. What do we know about the transient receptor potential vanilloid 2 (TRPV2) ion channel? Perálvarez-Marín A, Doñate-Macian P, Gaudet R. FEBS J 280 5471-5487 (2013)
  8. Putting proteins in their place: palmitoylation in Huntington disease and other neuropsychiatric diseases. Young FB, Butland SL, Sanders SS, Sutton LM, Hayden MR. Prog Neurobiol 97 220-238 (2012)
  9. Ankyrin protein networks in membrane formation and stabilization. Cunha SR, Mohler PJ. J Cell Mol Med 13 4364-4376 (2009)
  10. The spectrin-ankyrin-4.1-adducin membrane skeleton: adapting eukaryotic cells to the demands of animal life. Baines AJ. Protoplasma 244 99-131 (2010)
  11. Drosophila TRP channels. Montell C. Pflugers Arch 451 19-28 (2005)
  12. Repeat-protein folding: new insights into origins of cooperativity, stability, and topology. Kloss E, Courtemanche N, Barrick D. Arch Biochem Biophys 469 83-99 (2008)
  13. Modelling the structure of the red cell membrane. Burton NM, Bruce LJ. Biochem Cell Biol 89 200-215 (2011)
  14. Molecular mechanisms of cellular mechanics. Gao M, Sotomayor M, Villa E, Lee EH, Schulten K. Phys Chem Chem Phys 8 3692-3706 (2006)
  15. alpha-Latrotoxin and its receptors. Ushkaryov YA, Rohou A, Sugita S. Handb Exp Pharmacol 171-206 (2008)
  16. Refined views of multi-protein complexes in the erythrocyte membrane. Mankelow TJ, Satchwell TJ, Burton NM. Blood Cells Mol Dis 49 1-10 (2012)
  17. Review of four major distinct types of human phospholipase A2. Vasquez AM, Mouchlis VD, Dennis EA. Adv Biol Regul 67 212-218 (2018)
  18. Analysis of LRRK2 accessory repeat domains: prediction of repeat length, number and sites of Parkinson's disease mutations. Mills RD, Mulhern TD, Cheng HC, Culvenor JG. Biochem Soc Trans 40 1086-1089 (2012)
  19. Prediction of the repeat domain structures and impact of parkinsonism-associated variations on structure and function of all functional domains of leucine-rich repeat kinase 2 (LRRK2). Mills RD, Mulhern TD, Liu F, Culvenor JG, Cheng HC. Hum Mutat 35 395-412 (2014)
  20. How the TRPA1 receptor transmits painful stimuli: Inner workings revealed by electron cryomicroscopy. Brewster MS, Gaudet R. Bioessays 37 1184-1192 (2015)
  21. Developments in single photon emission computed tomography and PET-based HER2 molecular imaging for breast cancer. Goldstein R, Sosabowski J, Vigor K, Chester K, Meyer T. Expert Rev Anticancer Ther 13 359-373 (2013)
  22. Ankyrin-based cellular pathways for cardiac ion channel and transporter targeting and regulation. Cunha SR, Mohler PJ. Semin Cell Dev Biol 22 166-170 (2011)
  23. Coordinating electrical activity of the heart: ankyrin polypeptides in human cardiac disease. Curran J, Mohler PJ. Expert Opin Ther Targets 15 789-801 (2011)
  24. Mechanisms and Alterations of Cardiac Ion Channels Leading to Disease: Role of Ankyrin-B in Cardiac Function. Sucharski HC, Dudley EK, Keith CBR, El Refaey M, Koenig SN, Mohler PJ. Biomolecules 10 E211 (2020)
  25. Cargo hold and delivery: Ankyrins, spectrins, and their functional patterning of neurons. Lorenzo DN. Cytoskeleton (Hoboken) 77 129-148 (2020)
  26. Analysis of Tandem Repeat Protein Folding Using Nearest-Neighbor Models. Petersen M, Barrick D. Annu Rev Biophys 50 245-265 (2021)
  27. Ankyrin-based patterning of membrane microdomains: new insights into a novel class of cardiovascular diseases. Nilsson KR, Bennett V. J Cardiovasc Pharmacol 54 106-115 (2009)
  28. Regulation of Cardiac Conduction and Arrhythmias by Ankyrin/Spectrin-Based Macromolecular Complexes. Nassal D, Yu J, Min D, Lane C, Shaheen R, Gratz D, Hund TJ. J Cardiovasc Dev Dis 8 48 (2021)
  29. LRRK2 Structure-Based Activation Mechanism and Pathogenesis. Zhang X, Kortholt A. Biomolecules 13 612 (2023)

Articles citing this publication (83)

  1. TRP channel activation by reversible covalent modification. Hinman A, Chuang HH, Bautista DM, Julius D. Proc Natl Acad Sci U S A 103 19564-19568 (2006)
  2. TRPA1 is a candidate for the mechanosensitive transduction channel of vertebrate hair cells. Corey DP, García-Añoveros J, Holt JR, Kwan KY, Lin SY, Vollrath MA, Amalfitano A, Cheung EL, Derfler BH, Duggan A, Géléoc GS, Gray PA, Hoffman MP, Rehm HL, Tamasauskas D, Zhang DS. Nature 432 723-730 (2004)
  3. Designing repeat proteins: well-expressed, soluble and stable proteins from combinatorial libraries of consensus ankyrin repeat proteins. Binz HK, Stumpp MT, Forrer P, Amstutz P, Plückthun A. J Mol Biol 332 489-503 (2003)
  4. Ankyrin-B coordinates the Na/K ATPase, Na/Ca exchanger, and InsP3 receptor in a cardiac T-tubule/SR microdomain. Mohler PJ, Davis JQ, Bennett V. PLoS Biol 3 e423 (2005)
  5. In search of the hair-cell gating spring elastic properties of ankyrin and cadherin repeats. Sotomayor M, Corey DP, Schulten K. Structure 13 669-682 (2005)
  6. Nanospring behaviour of ankyrin repeats. Lee G, Abdi K, Jiang Y, Michaely P, Bennett V, Marszalek PE. Nature 440 246-249 (2006)
  7. A single N-terminal cysteine in TRPV1 determines activation by pungent compounds from onion and garlic. Salazar H, Llorente I, Jara-Oseguera A, García-Villegas R, Munari M, Gordon SE, Islas LD, Rosenbaum T. Nat Neurosci 11 255-261 (2008)
  8. Voltage-gated Nav channel targeting in the heart requires an ankyrin-G dependent cellular pathway. Lowe JS, Palygin O, Bhasin N, Hund TJ, Boyden PA, Shibata E, Anderson ME, Mohler PJ. J Cell Biol 180 173-186 (2008)
  9. Hypothesis: a helix of ankyrin repeats of the NOMPC-TRP ion channel is the gating spring of mechanoreceptors. Howard J, Bechstedt S. Curr Biol 14 R224-6 (2004)
  10. Ankyrin-G is a molecular partner of E-cadherin in epithelial cells and early embryos. Kizhatil K, Davis JQ, Davis L, Hoffman J, Hogan BL, Bennett V. J Biol Chem 282 26552-26561 (2007)
  11. The allosteric role of the Ca2+ switch in adhesion and elasticity of C-cadherin. Sotomayor M, Schulten K. Biophys J 94 4621-4633 (2008)
  12. Plasma membrane-cytoskeleton-endoplasmic reticulum complexes in neurons and astrocytes. Lencesova L, O'Neill A, Resneck WG, Bloch RJ, Blaustein MP. J Biol Chem 279 2885-2893 (2004)
  13. Significant association of ANKK1 and detection of a functional polymorphism with nicotine dependence in an African-American sample. Huang W, Payne TJ, Ma JZ, Beuten J, Dupont RT, Inohara N, Li MD. Neuropsychopharmacology 34 319-330 (2009)
  14. A novel strategy to design binding molecules harnessing the modular nature of repeat proteins. Forrer P, Stumpp MT, Binz HK, Plückthun A. FEBS Lett 539 2-6 (2003)
  15. Ca2+-selective transient receptor potential V channel architecture and function require a specific ankyrin repeat. Erler I, Hirnet D, Wissenbach U, Flockerzi V, Niemeyer BA. J Biol Chem 279 34456-34463 (2004)
  16. Structures of the spectrin-ankyrin interaction binding domains. Ipsaro JJ, Huang L, Mondragón A. Blood 113 5385-5393 (2009)
  17. Inositol 1,4,5-trisphosphate receptor localization and stability in neonatal cardiomyocytes requires interaction with ankyrin-B. Mohler PJ, Davis JQ, Davis LH, Hoffman JA, Michaely P, Bennett V. J Biol Chem 279 12980-12987 (2004)
  18. Structural basis for recognition of 2',5'-linked oligoadenylates by human ribonuclease L. Tanaka N, Nakanishi M, Kusakabe Y, Goto Y, Kitade Y, Nakamura KT. EMBO J 23 3929-3938 (2004)
  19. Functional subdomain in the ankyrin domain of tankyrase 1 required for poly(ADP-ribosyl)ation of TRF1 and telomere elongation. Seimiya H, Muramatsu Y, Smith S, Tsuruo T. Mol Cell Biol 24 1944-1955 (2004)
  20. Crystal structure of the human TRPV2 channel ankyrin repeat domain. McCleverty CJ, Koesema E, Patapoutian A, Lesley SA, Kreusch A. Protein Sci 15 2201-2206 (2006)
  21. A NOMPC-dependent membrane-microtubule connector is a candidate for the gating spring in fly mechanoreceptors. Liang X, Madrid J, Gärtner R, Verbavatz JM, Schiklenk C, Wilsch-Bräuninger M, Bogdanova A, Stenger F, Voigt A, Howard J. Curr Biol 23 755-763 (2013)
  22. A code for RanGDP binding in ankyrin repeats defines a nuclear import pathway. Lu M, Zak J, Chen S, Sanchez-Pulido L, Severson DT, Endicott J, Ponting CP, Schofield CJ, Lu X. Cell 157 1130-1145 (2014)
  23. In silico structural and functional analysis of fragments of the ankyrin repeat protein p18(INK4c). Sklenovsý P, Otyepka M. J Biomol Struct Dyn 27 521-540 (2010)
  24. The PAM1 gene of petunia, required for intracellular accommodation and morphogenesis of arbuscular mycorrhizal fungi, encodes a homologue of VAPYRIN. Feddermann N, Muni RR, Zeier T, Stuurman J, Ercolin F, Schorderet M, Reinhardt D. Plant J 64 470-481 (2010)
  25. The structure of the ankyrin-binding site of beta-spectrin reveals how tandem spectrin-repeats generate unique ligand-binding properties. Stabach PR, Simonović I, Ranieri MA, Aboodi MS, Steitz TA, Simonović M, Morrow JS. Blood 113 5377-5384 (2009)
  26. Genome-wide analysis and molecular dissection of the SPL gene family in Salvia miltiorrhiza. Zhang L, Wu B, Zhao D, Li C, Shao F, Lu S. J Integr Plant Biol 56 38-50 (2014)
  27. Structure of the Legionella effector AnkX reveals the mechanism of phosphocholine transfer by the FIC domain. Campanacci V, Mukherjee S, Roy CR, Cherfils J. EMBO J 32 1469-1477 (2013)
  28. An Ankyrin-G N-terminal Gate and Protein Kinase CK2 Dually Regulate Binding of Voltage-gated Sodium and KCNQ2/3 Potassium Channels. Xu M, Cooper EC. J Biol Chem 290 16619-16632 (2015)
  29. Asparagine and aspartate hydroxylation of the cytoskeletal ankyrin family is catalyzed by factor-inhibiting hypoxia-inducible factor. Yang M, Ge W, Chowdhury R, Claridge TD, Kramer HB, Schmierer B, McDonough MA, Gong L, Kessler BM, Ratcliffe PJ, Coleman ML, Schofield CJ. J Biol Chem 286 7648-7660 (2011)
  30. Isoform specificity of ankyrin-B: a site in the divergent C-terminal domain is required for intramolecular association. Abdi KM, Mohler PJ, Davis JQ, Bennett V. J Biol Chem 281 5741-5749 (2006)
  31. Letter Stepwise unfolding of ankyrin repeats in a single protein revealed by atomic force microscopy. Li L, Wetzel S, Plückthun A, Fernandez JM. Biophys J 90 L30-2 (2006)
  32. E-cadherin polarity is determined by a multifunction motif mediating lateral membrane retention through ankyrin-G and apical-lateral transcytosis through clathrin. Jenkins PM, Vasavda C, Hostettler J, Davis JQ, Abdi K, Bennett V. J Biol Chem 288 14018-14031 (2013)
  33. Probing a moving target with a plastic unfolding intermediate of an ankyrin-repeat protein. Werbeck ND, Itzhaki LS. Proc Natl Acad Sci U S A 104 7863-7868 (2007)
  34. High-resolution crystal structure of the human Notch 1 ankyrin domain. Ehebauer MT, Chirgadze DY, Hayward P, Martinez Arias A, Blundell TL. Biochem J 392 13-20 (2005)
  35. Functional proteomic analysis of seminal plasma proteins in men with various semen parameters. Sharma R, Agarwal A, Mohanty G, Jesudasan R, Gopalan B, Willard B, Yadav SP, Sabanegh E. Reprod Biol Endocrinol 11 38 (2013)
  36. The ammonium transporter RhBG: requirement of a tyrosine-based signal and ankyrin-G for basolateral targeting and membrane anchorage in polarized kidney epithelial cells. Lopez C, Métral S, Eladari D, Drevensek S, Gane P, Chambrey R, Bennett V, Cartron JP, Le Van Kim C, Colin Y. J Biol Chem 280 8221-8228 (2005)
  37. Comment Hearing: tightrope act. Corey DP, Sotomayor M. Nature 428 901-903 (2004)
  38. Secondary and tertiary structure elasticity of titin Z1Z2 and a titin chain model. Lee EH, Hsin J, Mayans O, Schulten K. Biophys J 93 1719-1735 (2007)
  39. Folding of a designed simple ankyrin repeat protein. Devi VS, Binz HK, Stumpp MT, Plückthun A, Bosshard HR, Jelesarov I. Protein Sci 13 2864-2870 (2004)
  40. Fast and forceful refolding of stretched alpha-helical solenoid proteins. Kim M, Abdi K, Lee G, Rabbi M, Lee W, Yang M, Schofield CJ, Bennett V, Marszalek PE. Biophys J 98 3086-3092 (2010)
  41. Shifting transition states in the unfolding of a large ankyrin repeat protein. Werbeck ND, Rowling PJ, Chellamuthu VR, Itzhaki LS. Proc Natl Acad Sci U S A 105 9982-9987 (2008)
  42. Molecular evolution of the ankyrin gene family. Cai X, Zhang Y. Mol Biol Evol 23 550-558 (2006)
  43. Analysis of the mobilities of band 3 populations associated with ankyrin protein and junctional complexes in intact murine erythrocytes. Kodippili GC, Spector J, Hale J, Giger K, Hughes MR, McNagny KM, Birkenmeier C, Peters L, Ritchie K, Low PS. J Biol Chem 287 4129-4138 (2012)
  44. An 11-amino acid beta-hairpin loop in the cytoplasmic domain of band 3 is responsible for ankyrin binding in mouse erythrocytes. Stefanovic M, Markham NO, Parry EM, Garrett-Beal LJ, Cline AP, Gallagher PG, Low PS, Bodine DM. Proc Natl Acad Sci U S A 104 13972-13977 (2007)
  45. Molecular epitopes of the ankyrin-spectrin interaction. Ipsaro JJ, Huang L, Gutierrez L, MacDonald RI. Biochemistry 47 7452-7464 (2008)
  46. A single divergent exon inhibits ankyrin-B association with the plasma membrane. He M, Tseng WC, Bennett V. J Biol Chem 288 14769-14779 (2013)
  47. The Arabidopsis AtPP2CA Protein Phosphatase Inhibits the GORK K+ Efflux Channel and Exerts a Dominant Suppressive Effect on Phosphomimetic-activating Mutations. Lefoulon C, Boeglin M, Moreau B, Véry AA, Szponarski W, Dauzat M, Michard E, Gaillard I, Chérel I. J Biol Chem 291 6521-6533 (2016)
  48. Cysteine shotgun-mass spectrometry (CS-MS) reveals dynamic sequence of protein structure changes within mutant and stressed cells. Krieger CC, An X, Tang HY, Mohandas N, Speicher DW, Discher DE. Proc Natl Acad Sci U S A 108 8269-8274 (2011)
  49. Identification of a novel ANKK1 and other dopaminergic (DRD2 and DBH) gene variants in migraine susceptibility. Ghosh J, Pradhan S, Mittal B. Neuromolecular Med 15 61-73 (2013)
  50. The first ankyrin-like repeat is the minimum indispensable key structure for functional assembly of homo- and heteromeric TRPC4/TRPC5 channels. Schindl R, Frischauf I, Kahr H, Fritsch R, Krenn M, Derndl A, Vales E, Muik M, Derler I, Groschner K, Romanin C. Cell Calcium 43 260-269 (2008)
  51. 2-5A induces a conformational change in the ankyrin-repeat domain of RNase L. Nakanishi M, Goto Y, Kitade Y. Proteins 60 131-138 (2005)
  52. Alternative to homo-oligomerisation: the creation of local symmetry in proteins by internal amplification. Abraham AL, Pothier J, Rocha EP. J Mol Biol 394 522-534 (2009)
  53. Recognition and Activation of the Plant AKT1 Potassium Channel by the Kinase CIPK23. Sánchez-Barrena MJ, Chaves-Sanjuan A, Raddatz N, Mendoza I, Cortés Á, Gago F, González-Rubio JM, Benavente JL, Quintero FJ, Pardo JM, Albert A. Plant Physiol 182 2143-2153 (2020)
  54. Regulation of the transient receptor potential channel TRPA1 by its N-terminal ankyrin repeat domain. Zayats V, Samad A, Minofar B, Roelofs KE, Stockner T, Ettrich R. J Mol Model 19 4689-4700 (2013)
  55. Differential expression and functionality of TRPA1 protein genetic variants in conditions of thermal stimulation. May D, Baastrup J, Nientit MR, Binder A, Schünke M, Baron R, Cascorbi I. J Biol Chem 287 27087-27094 (2012)
  56. Evolutionary Histories of Type III Polyketide Synthases in Fungi. Navarro-Muñoz JC, Collemare J. Front Microbiol 10 3018 (2019)
  57. Global analysis of ankyrin repeat domain C3HC4-type RING finger gene family in plants. Yuan X, Zhang S, Liu S, Yu M, Su H, Shu H, Li X. PLoS One 8 e58003 (2013)
  58. Scaling and self-organized criticality in proteins I. Phillips JC. Proc Natl Acad Sci U S A 106 3107-3112 (2009)
  59. X-ray structure of human gankyrin, the product of a gene linked to hepatocellular carcinoma. Manjasetty BA, Quedenau C, Sievert V, Büssow K, Niesen F, Delbrück H, Heinemann U. Proteins 55 214-217 (2004)
  60. A polydnaviral genome of Microplitis bicoloratus bracovirus and molecular interactions between the host and virus involved in NF-κB signaling. Yu DS, Chen YB, Li M, Yang MJ, Yang Y, Hu JS, Luo KJ. Arch Virol 161 3095-3124 (2016)
  61. Ambidextrous helical nanotubes from self-assembly of designed helical hairpin motifs. Hughes SA, Wang F, Wang S, Kreutzberger MAB, Osinski T, Orlova A, Wall JS, Zuo X, Egelman EH, Conticello VP. Proc Natl Acad Sci U S A 116 14456-14464 (2019)
  62. Associations of protein 4.2 with band 3 and ankyrin. Su Y, Ding Y, Jiang M, Jiang W, Hu X, Zhang Z. Mol Cell Biochem 289 159-166 (2006)
  63. Interaction of glucose transporter 1 with anion exchanger 1 in vitro. Jiang W, Ding Y, Su Y, Jiang M, Hu X, Zhang Z. Biochem Biophys Res Commun 339 1255-1261 (2006)
  64. Conserved residues in the ankyrin domain of VAPYRIN indicate potential protein-protein interaction surfaces. Feddermann N, Reinhardt D. Plant Signal Behav 6 680-684 (2011)
  65. A multiscale model of mechanotransduction by the ankyrin chains of the NOMPC channel. Argudo D, Capponi S, Bethel NP, Grabe M. J Gen Physiol 151 316-327 (2019)
  66. Crystal structure of Human ASB9-2 and substrate-recognition of CKB. Fei X, Gu X, Fan S, Yang Z, Li F, Zhang C, Gong W, Mao Y, Ji C. Protein J 31 275-284 (2012)
  67. Full-Length Anion Exchanger 1 Structure and Interactions with Ankyrin-1 Determined by Zero Length Crosslinking of Erythrocyte Membranes. Rivera-Santiago R, Harper SL, Sriswasdi S, Hembach P, Speicher DW. Structure 25 132-145 (2017)
  68. Scaling and self-organized criticality in proteins II. Phillips JC. Proc Natl Acad Sci U S A 106 3113-3118 (2009)
  69. Evidence of a structural and functional ammonium transporter RhBG·anion exchanger 1·ankyrin-G complex in kidney epithelial cells. Genetet S, Ripoche P, Le Van Kim C, Colin Y, Lopez C. J Biol Chem 290 6925-6936 (2015)
  70. A complex splicing defect associated with homozygous ankyrin-deficient hereditary spherocytosis. Edelman EJ, Maksimova Y, Duru F, Altay C, Gallagher PG. Blood 109 5491-5493 (2007)
  71. The 22.5 kDa spectrin-binding domain of ankyrinR binds spectrin with high affinity and changes the spectrin distribution in cells in vivo. Kolondra A, Grzybek M, Chorzalska A, Sikorski AF. Protein Expr Purif 60 157-164 (2008)
  72. VAPYRIN Marks an Endosomal Trafficking Compartment Involved in Arbuscular Mycorrhizal Symbiosis. Bapaume L, Laukamm S, Darbon G, Monney C, Meyenhofer F, Feddermann N, Chen M, Reinhardt D. Front Plant Sci 10 666 (2019)
  73. Mutation of conserved histidines alters tertiary structure and nanomechanics of consensus ankyrin repeats. Lee W, Strümpfer J, Bennett V, Schulten K, Marszalek PE. J Biol Chem 287 19115-19121 (2012)
  74. Ankrd31 in Sperm and Epididymal Integrity. Manfrevola F, Martinez G, Coutton C, Rocco D, Reynaud K, Le Vern Y, Froment P, Beauclair L, Aubert D, Pierantoni R, Chianese R, Guillou F. Front Cell Dev Biol 9 741975 (2021)
  75. Single-molecule FRET reveals hidden complexity in a protein energy landscape. Tsytlonok M, Ibrahim SM, Rowling PJE, Xu W, Ruedas-Rama MJ, Orte A, Klenerman D, Itzhaki LS. Structure 23 190-198 (2015)
  76. Association of ANKK1 polymorphism with antipsychotic-induced hyperprolactinemia. Fedorenko OY, Paderina DZ, Loonen AJM, Pozhidaev IV, Boiko AS, Kornetova EG, Bokhan NA, Wilffert B, Ivanova SA. Hum Psychopharmacol 35 e2737 (2020)
  77. Atomic force microscopy captures folded ribosome bound nascent chains. Loksztejn A, Scholl Z, Marszalek PE. Chem Commun (Camb) 48 11727-11729 (2012)
  78. Feature extraction by statistical contact potentials and wavelet transform for predicting subcellular localizations in gram negative bacterial proteins. Arango-Argoty GA, Jaramillo-Garzón JA, Castellanos-Domínguez G. J Theor Biol 364 121-130 (2015)
  79. Protein 4.2 Komatsu (D175Y) associated with the lack of interaction with ankyrin in human red blood cells. Su Y, Ding Y, Jiang M, Hu X, Zhang Z. Blood Cells Mol Dis 38 221-228 (2007)
  80. RGD-containing ankyrin externalized onto the cell surface triggers αVβ3 integrin-mediated erythrophagocytosis. Peng W, Sung LA. Biochem Biophys Res Commun 407 466-471 (2011)
  81. Comprehensive Analyses of Bone and Cartilage Transcriptomes Evince Ion Transport, Inflammation and Cartilage Development-Related Genes Involved in Chickens' Femoral Head Separation. Goldoni I, Ibelli AMG, Fernandes LT, Peixoto JO, Hul LM, Cantão ME, Gouveia JJS, Ledur MC. Animals (Basel) 12 788 (2022)
  82. The study of pH-dependent stability shows that the TPLH-mediated hydrogen-bonding network is important for the conformation and stability of human gankyrin. Yuan C, Guo Y, Zhu L, Guo W, Mahajan A, Weghorst CM, Li J. Biochemistry 52 4848-4857 (2013)
  83. Transient receptor potential N (TRPN1) from Xenopus interacts with the penta-EF-hand protein peflin. Wiemuth D, van de Sandt L, Herr R, Gründer S. FEBS Lett 586 4276-4281 (2012)


Quick links