RBM10

RBM10
Нинди таксонда бар H. sapiens[1]
Кодлаштыра RNA binding motif protein 10[d][2] һәм RNA binding motif protein 10, isoform CRA_d[d][2]
Генетик бәйләнеш TARP syndrome[d][2][3], почечноклеточный рак[d][4][5][6], колоректаль яманшеш[d][7][8][6], аденокарцинома лёгкого[d][9][10][6], bladder carcinoma[d][10][6], Низко-дифференцированный рак щитовидной железы[d][11][12][6], Холангиокарцинома[d][13][14][6], Менингиома[15][6], астробластома[d][16][6], сөт бизе яман шеше[17][6] һәм простата яман шеше[17][6]
Хромосома X-хромосома[d][1]
Ген ориентациясе уңай ориентация[d][1]
Геномик башлангыч 47004268[1] һәм 47145221[1]
Геномик ахыр 47186813[1] һәм 47046212[1]
Цитогенетик өлкә Xp11.3[18]
Homologene идентификаторы 31330[18]
Изображение Gene Atlas
Ортолог гены Rbm10[d][19][20], Rbm10[d][19][20], rbm10[d][19], CG4896[d][19] һәм CG4887[d][19][20]
Экпрессия урыны right hemisphere of cerebellum[d][21], ventricular zone[d][21], ганглионар кытыршы[d][21], Гранулоциты[d][21], левый яичник[d][21], tendon of biceps brachii[d][21], правый яичник[d][21], гипофиз[21], гипофизның алгы өлеше[d][21] һәм mucosa of transverse colon[d][21]

RBM10 (ингл. RNA binding motif protein 10[d][2] һәм RNA binding motif protein 10, isoform CRA_d[d][2]) — X-хромосома[d][1] аксымы, шул ук исемдәге ген тарафыннан кодлана торган югары молекуляр органик матдә.[22][23]

Искәрмәләр

  1. 1,0 1,1 1,2 1,3 1,4 1,5 1,6 1,7 ensembl Release 106 — 106
  2. 2,0 2,1 2,2 2,3 2,4 UniProt
  3. Open Targets Platform
  4. Xia Q., Wang X., Zhan X. et al. Xp11 Translocation Renal Cell Carcinomas (RCCs) With RBM10-TFE3 Gene Fusion Demonstrating Melanotic Features and Overlapping Morphology With t(6;11) RCC: Interest and Diagnostic Pitfall in Detecting a Paracentric Inversion of TFE3. // Am. J. Surg. Pathol.Lippincott Williams & Wilkins, 2017. — ISSN 0147-5185; 1532-0979doi:10.1097/PAS.0000000000000837PMID:28288037
  5. Kato I., Furuya M., Baba M. et al. RBM10-TFE3 renal cell carcinoma characterised by paracentric inversion with consistent closely split signals in break-apart fluorescence in-situ hybridisation: study of 10 cases and a literature review // HistopathologyWiley-Blackwell, Wiley, 2019. — ISSN 0309-0167; 1365-2559doi:10.1111/HIS.13866PMID:30908700
  6. 6,00 6,01 6,02 6,03 6,04 6,05 6,06 6,07 6,08 6,09 Inoue A. RBM10: Structure, functions, and associated diseases // GeneElsevier, 2021. — ISSN 0378-1119; 1879-0038doi:10.1016/J.GENE.2021.145463PMID:33515724
  7. Lander E., Getz G., Stojanov P. et al. Discovery and saturation analysis of cancer genes across 21 tumour types // Nature / M. SkipperNPG, Springer Science+Business Media, 2014. — ISSN 1476-4687; 0028-0836doi:10.1038/NATURE12912PMID:24390350
  8. Getz G., Lander E. S., Rosenberg M. et al. Genomic Correlates of Immune-Cell Infiltrates in Colorectal Carcinoma // Cell ReportsCell Press, Elsevier, 2016. — ISSN 2211-1247; 2639-1856doi:10.1016/J.CELREP.2016.03.075PMID:27149842
  9. Lander E., Cibulskis K., Auclair D. et al. Mapping the hallmarks of lung adenocarcinoma with massively parallel sequencing // CellCell Press, Elsevier, 2012. — ISSN 0092-8674; 1097-4172doi:10.1016/J.CELL.2012.08.029PMID:22980975
  10. 10,0 10,1 Cancer Genome Atlas Research Network, Carvalho A. C. d. Somatic Mutational Landscape of Splicing Factor Genes and Their Functional Consequences across 33 Cancer Types // Cell ReportsCell Press, Elsevier, 2018. — ISSN 2211-1247; 2639-1856doi:10.1016/J.CELREP.2018.01.088PMID:29617667
  11. Xu B., Middha S. Genomic Alterations in Fatal Forms of Non-Anaplastic Thyroid Cancer: Identification of MED12 and RBM10 as Novel Thyroid Cancer Genes Associated with Tumor Virulence // Clin. Cancer Res. / K. FlahertyAmerican Association for Cancer Research, 2017. — ISSN 1078-0432; 1557-3265doi:10.1158/1078-0432.CCR-17-1183PMID:28634282
  12. Ibrahimpasic T., Ghossein R., Shah J. P. et al. Poorly Differentiated Carcinoma of the Thyroid Gland: Current Status and Future Prospects // ThyroidMary Ann Liebert, Inc., 2019. — ISSN 1050-7256; 1557-9077doi:10.1089/THY.2018.0509PMID:30747050
  13. Tian W., Hu W., Shi X. et al. Comprehensive genomic profile of cholangiocarcinomas in China // Oncology Letters / D. Spandidos — 2020. — ISSN 1792-1074; 1792-1082doi:10.3892/OL.2020.11429PMID:32256810
  14. Schwab M. E., Song H., Mattis A. et al. De novo somatic mutations and KRAS amplification are associated with cholangiocarcinoma in a patient with a history of choledochal cyst // Journal of Pediatric SurgeryElsevier, 2020. — ISSN 0022-3468; 1531-5037doi:10.1016/J.JPEDSURG.2020.03.008PMID:32295706
  15. (not translated to en), McCabe D., Williams E. et al. DMD genomic deletions characterize a subset of progressive/higher-grade meningiomas with poor outcome // Acta Neuropathol. (Berl)Springer Science+Business Media, 2018. — ISSN 0001-6322; 1432-0533doi:10.1007/S00401-018-1899-7PMID:30123936
  16. Majd N. K., Metrus N. R., Santos-Pinheiro F. et al. RBM10 truncation in astroblastoma in a patient with history of mandibular ameloblastoma: A case report // Cancer GeneticsElsevier, 2019. — ISSN 2210-7762; 2210-7770doi:10.1016/J.CANCERGEN.2019.01.001PMID:30803556
  17. 17,0 17,1 Bourgon R., Peters B. A., Modrusan Z. et al. Diverse somatic mutation patterns and pathway alterations in human cancers // Nature / M. SkipperNPG, Springer Science+Business Media, 2010. — ISSN 1476-4687; 0028-0836doi:10.1038/NATURE09208PMID:20668451
  18. 18,0 18,1 NCBI Gene
  19. 19,0 19,1 19,2 19,3 19,4 HomoloGene сборка 68 — 68 — 2014.
  20. 20,0 20,1 20,2 Orthologous MAtrix
  21. 21,00 21,01 21,02 21,03 21,04 21,05 21,06 21,07 21,08 21,09 Bgee
  22. HUGO Gene Nomenclature Commitee, HGNC:29223 (ингл.). әлеге чыганактан 2015-10-25 архивланган. 18 сентябрь, 2017 тикшерелгән.
  23. UniProt, Q9ULJ7 (ингл.). 18 сентябрь, 2017 тикшерелгән.

Чыганаклар

  • 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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