PAX8

PAX8
Нинди таксонда бар H. sapiens[d][1]
Кодлаучы ген PAX8[d][1]
Молекуляр функция ДНК-связывающий[d][2][3][3][…], sequence-specific DNA binding[d][3], DNA-binding transcription factor activity[d][4][5][2], DNA-binding transcription activator activity, RNA polymerase II-specific[d][6][3], RNA polymerase II cis-regulatory region sequence-specific DNA binding[d][6], thyroid-stimulating hormone receptor activity[d][2], связывание с белками плазмы[d][7][8], RNA polymerase II core promoter sequence-specific DNA binding[d][9], DNA-binding transcription factor activity, RNA polymerase II-specific[d][10][10][3] һәм RNA polymerase II cis-regulatory region sequence-specific DNA binding[d][3][5]
Күзәнәк компоненты нуклеоплазма[d][3][3][3] һәм төш[3][3][5][…]
Биологик процесс regulation of apoptotic process[d][3][3], pronephros development[d][3][3], regulation of metanephric nephron tubule epithelial cell differentiation[d][3][3], дифференцировка клеток[d][3][3], mesonephric tubule development[d][3], positive regulation of branching involved in ureteric bud morphogenesis[d][3][3], kidney epithelium development[d][3], ДНК-зависимая регуляция транскрипции[d][3][3], positive regulation of metanephric DCT cell differentiation[d][3][3], negative regulation of mesenchymal cell apoptotic process involved in metanephric nephron morphogenesis[d][3][3], negative regulation of apoptotic process involved in metanephric collecting duct development[d][3][3], нефрогенез[d][11], pronephric field specification[d][3][3], positive regulation of mesenchymal to epithelial transition involved in metanephros morphogenesis[d][3][3], морфогенез анатомической структуры[d][2], metanephric epithelium development[d][12], mesenchymal to epithelial transition involved in metanephros morphogenesis[d][13], transcription by RNA polymerase II[d][6], regulation of thyroid-stimulating hormone secretion[d][14], транскрипция, ДНК-зависимая[d][3][2], otic vesicle development[d][11], metanephric distal convoluted tubule development[d][3][3], negative regulation of mesenchymal cell apoptotic process involved in metanephros development[d][3][3], mesonephros development[d][3][3], ДНК-зависимая позитивная регуляция транскрипции[d][3][3][5][…], metanephric nephron tubule formation[d][3][3], развитие многоклеточного организма[d][3], үзәк нерв системасы үсеше[d][11][3], metanephric comma-shaped body morphogenesis[d][15], branching involved in ureteric bud morphogenesis[d][15], развитие щитовидной железы[d][2][15][11][…], positive regulation of thyroid hormone generation[d][14][3], negative regulation of apoptotic process involved in metanephric nephron tubule development[d][3][3], S-shaped body morphogenesis[d][3], inner ear morphogenesis[d][3][3], развитие мочеполовой системы[d][3][3], sulfur compound metabolic process[d][3], metanephric S-shaped body morphogenesis[d][15], metanephros development[d][3], cellular response to gonadotropin stimulus[d][16], положительная регуляция транскрипции РНК полимеразой II промотор[d][3][5], thyroid-stimulating hormone signaling pathway[d][3], negative regulation of cardiac muscle cell apoptotic process[d][3] һәм ventricular septum development[d][3]

PAX8 (ингл. ) — аксымы, шул ук исемдәге ген тарафыннан кодлана торган югары молекуляр органик матдә.[17][18]

Искәрмәләр

[үзгәртү | вики-текстны үзгәртү]
  1. 1,0 1,1 UniProt
  2. 2,0 2,1 2,2 2,3 2,4 2,5 Macchia P. E., C Missero, M Busslinger PAX8 mutations associated with congenital hypothyroidism caused by thyroid dysgenesis // Nature Genetics / M. Axton, T. FaialNPG, 1998. — ISSN 1061-4036; 1546-1718doi:10.1038/NG0598-83PMID:9590296
  3. 3,00 3,01 3,02 3,03 3,04 3,05 3,06 3,07 3,08 3,09 3,10 3,11 3,12 3,13 3,14 3,15 3,16 3,17 3,18 3,19 3,20 3,21 3,22 3,23 3,24 3,25 3,26 3,27 3,28 3,29 3,30 3,31 3,32 3,33 3,34 3,35 3,36 3,37 3,38 3,39 3,40 3,41 3,42 3,43 3,44 3,45 3,46 3,47 3,48 3,49 3,50 3,51 3,52 3,53 3,54 3,55 3,56 3,57 3,58 3,59 3,60 3,61 GOA
  4. G Tell Structural defects of a Pax8 mutant that give rise to congenital hypothyroidism // Biochem. J.London [etc.]: Portland Press, 1999. — 5 p. — ISSN 0264-6021; 1470-8728doi:10.1042/BJ3410089PMID:10377248
  5. 5,0 5,1 5,2 5,3 5,4 Fraizer G. C., R. Shimamura, X. Zhang et al. PAX 8 regulates human WT1 transcription through a novel DNA binding site, PAX 8 Regulates Human WT1 Transcription through a Novel DNA Binding Site // J. Biol. Chem. / L. M. GieraschBaltimore [etc.]: American Society for Biochemistry and Molecular Biology, 1997. — ISSN 0021-9258; 1083-351X; 1067-8816doi:10.1074/JBC.272.49.30678PMID:9388203
  6. 6,0 6,1 6,2 GOA
  7. Palma T. D., D'Andrea B., Liguori G. L. et al. TAZ is a coactivator for Pax8 and TTF-1, two transcription factors involved in thyroid differentiation // Exp. Cell. Res.Academic Press, Elsevier BV, 2009. — ISSN 0014-4827; 1090-2422doi:10.1016/J.YEXCR.2008.10.016PMID:19010321
  8. Tomita M. A comprehensive resource of interacting protein regions for refining human transcription factor networks // PLOS ONE / PLOS ONE EditorsPLoS, 2010. — ISSN 1932-6203doi:10.1371/JOURNAL.PONE.0009289PMID:20195357
  9. Fraizer G. C., R. Shimamura, X. Zhang et al. PAX 8 regulates human WT1 transcription through a novel DNA binding site, PAX 8 Regulates Human WT1 Transcription through a Novel DNA Binding Site // J. Biol. Chem. / L. M. GieraschBaltimore [etc.]: American Society for Biochemistry and Molecular Biology, 1997. — ISSN 0021-9258; 1083-351X; 1067-8816doi:10.1074/JBC.272.49.30678PMID:9388203
  10. 10,0 10,1 Vaquerizas J. M., Teichmann S., Kummerfeld S. K. A census of human transcription factors: function, expression and evolution // Nature reviews. GeneticsUnited Kingdom: NPG, 2009. — ISSN 1471-0056; 1471-0064doi:10.1038/NRG2538PMID:19274049
  11. 11,0 11,1 11,2 11,3 Attié-Bitach T., Vekemans M., Etchevers H. PAX8, TITF1, and FOXE1 gene expression patterns during human development: new insights into human thyroid development and thyroid dysgenesis-associated malformations // J. Clin. Endocrinol. Metab. / R. Paul RobertsonEndocrine Society, 2005. — ISSN 0021-972X; 1945-7197; 0096-7173; 0368-1610doi:10.1210/JC.2004-1358PMID:15494458
  12. Eccles M. R., K Yun, Reeve A. E. et al. Comparative in situ hybridization analysis of PAX2, PAX8, and WT1 gene transcription in human fetal kidney and Wilms' tumors // Am. J. Pathol.Elsevier BV, 1995. — ISSN 0002-9440; 1525-2191; 0097-3599PMID:7856737
  13. M Dehbi, J Pelletier PAX8-mediated activation of the wt1 tumor suppressor gene // EMBO J.NPG, 1996. — ISSN 0261-4189; 1460-2075doi:10.1002/J.1460-2075.1996.TB00804.XPMID:8861958
  14. 14,0 14,1 Costagliola S., Vassart G. Characterization of a novel loss of function mutation of PAX8 in a familial case of congenital hypothyroidism with in-place, normal-sized thyroid // J. Clin. Endocrinol. Metab. / R. Paul RobertsonEndocrine Society, 2004. — ISSN 0021-972X; 1945-7197; 0096-7173; 0368-1610doi:10.1210/JC.2004-0166PMID:15356023
  15. 15,0 15,1 15,2 15,3 A. Poleev, H. Fickenscher, S. Mundlos et al. PAX8, a human paired box gene: isolation and expression in developing thyroid, kidney and Wilms' tumors // Development: the journal of the Society for International Development / J. BriscoeThe Company of Biologists, 1992. — ISSN 0950-1991; 1477-9129; 0212-2448doi:10.1242/DEV.116.3.611PMID:1337742
  16. Ferretti E., Arturi F., Tell G. et al. Expression, regulation, and function of paired-box gene 8 in the human placenta and placental cancer cell lines // Endocrinology / T. K. WoodruffLos Angeles, Calif: Endocrine Society, OUP, 2005. — ISSN 0013-7227; 1945-7170doi:10.1210/EN.2005-0084PMID:15961562
  17. HUGO Gene Nomenclature Commitee, HGNC:29223 (ингл.). әлеге чыганактан 2015-10-25 архивланды. 18 сентябрь, 2017 тикшерелгән.
  18. UniProt, Q9ULJ7 (ингл.). 18 сентябрь, 2017 тикшерелгән.

Чыганаклар

[үзгәртү | вики-текстны үзгәртү]
  • Степанов В.М. (2005). Молекулярная биология. Структура и функция белков. Москва: Наука. ISBN 5-211-04971-3.(рус.)
  • Bruce Alberts, Alexander Johnson, Julian Lewis, Martin Raff, Keith Roberts, Peter Walter (2002). Molecular Biology of the Cell (вид. 4th). Garland. ISBN 0815332181.(ингл.)


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