2w2j Citations

Crystal structure of human carbonic anhydrase-related protein VIII reveals the basis for catalytic silencing.

Picaud SS, Muniz JR, Kramm A, Pilka ES, Kochan G, Oppermann U, Yue WW
Proteins 76 507-11 (2009)
Cited: 28 times
EuropePMC logo PMID: 19360879

Articles - 2w2j mentioned but not cited (3)

  1. Structural Characterization of Carbonic Anhydrase VIII and Effects of Missense Single Nucleotide Variations to Protein Structure and Function. Sanyanga TA, Tastan Bishop Ö. Int J Mol Sci 21 E2764 (2020)
  2. 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)
  3. A reverse vaccinology approach on transmembrane carbonic anhydrases from Plasmodium species as vaccine candidates for malaria prevention. Zolfaghari Emameh R, Barker HR, Turpeinen H, Parkkila S, Hytönen VP. Malar J 21 189 (2022)


Reviews citing this publication (12)

  1. Structure, function and applications of carbonic anhydrase isozymes. Imtaiyaz Hassan M, Shajee B, Waheed A, Ahmad F, Sly WS. Bioorg Med Chem 21 1570-1582 (2013)
  2. Structural annotation of human carbonic anhydrases. Aggarwal M, Boone CD, Kondeti B, McKenna R. J Enzyme Inhib Med Chem 28 267-277 (2013)
  3. Carbonic anhydrase IX as an imaging and therapeutic target for tumors and metastases. Tafreshi NK, Lloyd MC, Bui MM, Gillies RJ, Morse DL. Subcell Biochem 75 221-254 (2014)
  4. Carbonic anhydrases as disease markers. Zamanova S, Shabana AM, Mondal UK, Ilies MA. Expert Opin Ther Pat 29 509-533 (2019)
  5. Role of Carbonic Anhydrases and Inhibitors in Acid-Base Physiology: Insights from Mathematical Modeling. Occhipinti R, Boron WF. Int J Mol Sci 20 E3841 (2019)
  6. Crystallography and Its Impact on Carbonic Anhydrase Research. Lomelino CL, Andring JT, McKenna R. Int J Med Chem 2018 9419521 (2018)
  7. An update on carbonic anhydrase-related proteins VIII, X and XI. Aspatwar A, Tolvanen ME, Parkkila S. J Enzyme Inhib Med Chem 28 1129-1142 (2013)
  8. Thermodynamic, kinetic, and structural parameterization of human carbonic anhydrase interactions toward enhanced inhibitor design. Linkuvienė V, Zubrienė A, Manakova E, Petrauskas V, Baranauskienė L, Zakšauskas A, Smirnov A, Gražulis S, Ladbury JE, Matulis D. Q Rev Biophys 51 e10 (2018)
  9. High-throughput structural biology of metabolic enzymes and its impact on human diseases. Yue WW, Oppermann U. J Inherit Metab Dis 34 575-581 (2011)
  10. Human carbonic anhydrases and post-translational modifications: a hidden world possibly affecting protein properties and functions. Di Fiore A, Supuran CT, Scaloni A, De Simone G. J Enzyme Inhib Med Chem 35 1450-1461 (2020)
  11. The choroid plexus: a missing link in our understanding of brain development and function. Saunders NR, Dziegielewska KM, Fame RM, Lehtinen MK, Liddelow SA. Physiol Rev 103 919-956 (2023)
  12. Direct Biocatalytic Processes for CO2 Capture as a Green Tool to Produce Value-Added Chemicals. Villa R, Nieto S, Donaire A, Lozano P. Molecules 28 5520 (2023)

Articles citing this publication (13)

  1. Mechanisms that determine the internal environment of the developing brain: a transcriptomic, functional and ultrastructural approach. Liddelow SA, Dziegielewska KM, Ek CJ, Habgood MD, Bauer H, Bauer HC, Lindsay H, Wakefield MJ, Strazielle N, Kratzer I, Møllgård K, Ghersi-Egea JF, Saunders NR. PLoS One 8 e65629 (2013)
  2. Phylogeny and expression of carbonic anhydrase-related proteins. Aspatwar A, Tolvanen ME, Parkkila S. BMC Mol Biol 11 25 (2010)
  3. Phenotypical spectrum of cerebellar ataxia associated with a novel mutation in the CA8 gene, encoding carbonic anhydrase (CA) VIII. Kaya N, Aldhalaan H, Al-Younes B, Colak D, Shuaib T, Al-Mohaileb F, Al-Sugair A, Nester M, Al-Yamani S, Al-Bakheet A, Al-Hashmi N, Al-Sayed M, Meyer B, Jungbluth H, Al-Owain M. Am J Med Genet B Neuropsychiatr Genet 156B 826-834 (2011)
  4. Thermolability of mutant MMACHC protein in the vitamin B12-responsive cblC disorder. Froese DS, Healy S, McDonald M, Kochan G, Oppermann U, Niesen FH, Gravel RA. Mol Genet Metab 100 29-36 (2010)
  5. Mechanism of vitamin B12-responsiveness in cblC methylmalonic aciduria with homocystinuria. Froese DS, Zhang J, Healy S, Gravel RA. Mol Genet Metab 98 338-343 (2009)
  6. Abnormal cerebellar development and ataxia in CARP VIII morphant zebrafish. Aspatwar A, Tolvanen ME, Jokitalo E, Parikka M, Ortutay C, Harjula SK, Rämet M, Vihinen M, Parkkila S. Hum Mol Genet 22 417-432 (2013)
  7. Restoring catalytic activity to the human carbonic anhydrase (CA) related proteins VIII, X and XI affords isoforms with high catalytic efficiency and susceptibility to anion inhibition. Nishimori I, Vullo D, Minakuchi T, Scozzafava A, Capasso C, Supuran CT. Bioorg Med Chem Lett 23 256-260 (2013)
  8. Oncogenic roles of carbonic anhydrase 8 in human osteosarcoma cells. Wang TK, Lin YM, Lo CM, Tang CH, Teng CL, Chao WT, Wu MH, Liu CS, Hsieh M. Tumour Biol 37 7989-8005 (2016)
  9. Comparative Proteomics of Octocoral and Scleractinian Skeletomes and the Evolution of Coral Calcification. Conci N, Lehmann M, Vargas S, Wörheide G. Genome Biol Evol 12 1623-1635 (2020)
  10. Effects of carbonic anhydrase-related protein VIII on human cells harbouring an A8344G mitochondrial DNA mutation. Wang TK, Cheng CK, Chi TH, Ma YS, Wu SB, Wei YH, Hsieh M. Biochem J 459 149-160 (2014)
  11. Expression and Functional Study of Single Mutations of Carbonic Anhydrase 8 in Neuronal Cells. Chi TH, Hsieh BY, Liang PS, Han TH, Hsieh M. Cell Mol Neurobiol 41 1355-1371 (2021)
  12. Altered glucose metabolism and its association with carbonic anhydrase 8 in Machado-Joseph Disease. Lin GY, Ma CY, Kuo LC, Hsieh BY, Wang H, Liu CS, Hsieh M. Metab Brain Dis 37 2103-2120 (2022)
  13. Integrative Multi-Omics Analysis of Oncogenic EZH2 Mutants: From Epigenetic Reprogramming to Molecular Signatures. Aldana J, Gardner ML, Freitas MA. Int J Mol Sci 24 11378 (2023)


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