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Critical Reviews™ in Eukaryotic Gene Expression

Publicado 6 números por año

ISSN Imprimir: 1045-4403

ISSN En Línea: 2162-6502

The Impact Factor measures the average number of citations received in a particular year by papers published in the journal during the two preceding years. 2017 Journal Citation Reports (Clarivate Analytics, 2018) IF: 1.6 To calculate the five year Impact Factor, citations are counted in 2017 to the previous five years and divided by the source items published in the previous five years. 2017 Journal Citation Reports (Clarivate Analytics, 2018) 5-Year IF: 2.2 The Immediacy Index is the average number of times an article is cited in the year it is published. The journal Immediacy Index indicates how quickly articles in a journal are cited. Immediacy Index: 0.3 The Eigenfactor score, developed by Jevin West and Carl Bergstrom at the University of Washington, is a rating of the total importance of a scientific journal. Journals are rated according to the number of incoming citations, with citations from highly ranked journals weighted to make a larger contribution to the eigenfactor than those from poorly ranked journals. Eigenfactor: 0.00058 The Journal Citation Indicator (JCI) is a single measurement of the field-normalized citation impact of journals in the Web of Science Core Collection across disciplines. The key words here are that the metric is normalized and cross-disciplinary. JCI: 0.33 SJR: 0.345 SNIP: 0.46 CiteScore™:: 2.5 H-Index: 67

Indexed in

MARs of Antigen Receptor and Co-Receptor Genes

Volumen 9, Edición 3-4, 1999, pp. 295-310
DOI: 10.1615/CritRevEukarGeneExpr.v9.i3-4.140
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SINOPSIS

MARs are cis-acting DNA sequences that function both negatively and positively in conjunction with transcriptional enhancers to regulate antigen receptor and co-receptor genes. Evidence exists that certain tissue-specific nuclear proteins are involved in this regulation, including SATB1, Bright, and Cux/CDP, possibly by modulating intranuclear gene location, histone acetylation, DNA methylation, and/or nucleosome positioning.

CITADO POR
  1. Nechanitzky Robert, Dávila Amparo, Savarese Fabio, Fietze Stefanie, Grosschedl Rudolf, Satb1 and Satb2 Are Dispensable for X Chromosome Inactivation in Mice, Developmental Cell, 23, 4, 2012. Crossref

  2. Kaul Ruchika, Mukherjee Sujoy, Ahmed Farid, Bhat Manoj Kumar, Chhipa Rishiraj, Galande Sanjeev, Chattopadhyay Samit, Direct interaction with and activation of p53 by SMAR1 retards cell-cycle progression at G2/M phase and delays tumor growth in mice, International Journal of Cancer, 103, 5, 2003. Crossref

  3. Kohwi-Shigematsu Terumi, Kohwi Yoshinori, Matrix Attachment Regions, in Wiley Encyclopedia of Molecular Medicine, 2002. Crossref

  4. Yao Xin, Nie Hui, Rojas Ingrid C., Harriss June V., Maika Shanna D., Gottlieb Paul D., Rathbun Gary, Tucker Philip W., The L2a element is a mouse CD8 silencer that interacts with MAR-binding proteins SATB1 and CDP, Molecular Immunology, 48, 1-3, 2010. Crossref

  5. Kioussis Dimitris, Ellmeier Wilfried, Chromatin and CD4, CD8A and CD8B gene expression during thymic differentiation, Nature Reviews Immunology, 2, 12, 2002. Crossref

  6. Bassing Craig H, Swat Wojciech, Alt Frederick W, The Mechanism and Regulation of Chromosomal V(D)J Recombination, Cell, 109, 2, 2002. Crossref

  7. Inlay Matthew, Xu Yang, Epigenetic regulation of antigen receptor rearrangement, Clinical Immunology, 109, 1, 2003. Crossref

  8. Chattopadhyay Samit, Kaul Ruchika, Charest Alan, Housman David, Chen Jianzhu, SMAR1, a Novel, Alternatively Spliced Gene Product, Binds the Scaffold/Matrix-Associated Region at the T Cell Receptor β Locus, Genomics, 68, 1, 2000. Crossref

  9. Inlay Matthew A., Lin Tongxiang, Gao Heather H., Xu Yang, Critical roles of the immunoglobulin intronic enhancers in maintaining the sequential rearrangement of IgH and Igk loci, Journal of Experimental Medicine, 203, 7, 2006. Crossref

  10. Wu Geng, Xu Rongyao, Zhang Ping, Xiao Tao, Fu Yu, Zhang Yuchao, Du Yifei, Ye Jinhai, Cheng Jie, Jiang Hongbing, Estrogen regulates stemness and senescence of bone marrow stromal cells to prevent osteoporosis via ERβ‐SATB2 pathway, Journal of Cellular Physiology, 233, 5, 2018. Crossref

  11. Naik Rutika, Galande Sanjeev, SATB family chromatin organizers as master regulators of tumor progression, Oncogene, 38, 12, 2019. Crossref

  12. Zhang Jin, Tu Qisheng, Grosschedl Rudolf, Kim Min Seok, Griffin Terrence, Drissi Hicham, Yang Pishan, Chen Jake, Roles of SATB2 in Osteogenic Differentiation and Bone Regeneration, Tissue Engineering Part A, 17, 13-14, 2011. Crossref

  13. Nie Hui, Maika Shanna D., Tucker Philip W., Gottlieb Paul D., A Role for SATB1, a Nuclear Matrix Association Region-Binding Protein, in the Development of CD8SP Thymocytes and Peripheral T Lymphocytes, The Journal of Immunology, 174, 8, 2005. Crossref

  14. Kieffer Lynda J., Greally John M., Landres Inna, Nag Shanta, Nakajima Yuko, Kohwi-Shigematsu Terumi, Kavathas Paula B., Identification of a Candidate Regulatory Region in the HumanCD8Gene Complex by Colocalization of DNase I Hypersensitive Sites and Matrix Attachment Regions Which Bind SATB1 and GATA-3, The Journal of Immunology, 168, 8, 2002. Crossref

  15. Sinclair Angus M., Lee Jamie A., Goldstein Adrian, Xing Dongxia, Liu Shengxi, Ju Ruzeng, Tucker Philip W., Neufeld Ellis J., Scheuermann Richard H., Lymphoid apoptosis and myeloid hyperplasia in CCAAT displacement protein mutant mice, Blood, 98, 13, 2001. Crossref

  16. Goebel Peter, Montalbano Alina, Ayers Neil, Kompfner Elizabeth, Dickinson Liliane, Webb Carol F., Feeney Ann J., High Frequency of Matrix Attachment Regions and Cut-Like Protein x/CCAAT-Displacement Protein and B Cell Regulator of IgH Transcription Binding Sites Flanking Ig V Region Genes, The Journal of Immunology, 169, 5, 2002. Crossref

  17. Patani Neill, Jiang Wen, Mansel Robert, Newbold Robert, Mokbel Kefah, The mRNA expression of SATB1 and SATB2 in human breast cancer, Cancer Cell International, 9, 1, 2009. Crossref

  18. Dobreva Gergana, Dambacher Julia, Grosschedl Rudolf, SUMO modification of a novel MAR-binding protein, SATB2, modulates immunoglobulin μ gene expression, Genes & Development, 17, 24, 2003. Crossref

  19. Razin Sergey V, Matrix‐associated Regions (MARs) and Scaffold Attachment Regions (SARs), in eLS, 2005. Crossref

  20. Lin Danjuan, Ippolito Gregory C, Zong Rui-Ting, Bryant James, Koslovsky Janet, Tucker Philip, Bright/ARID3A contributes to chromatin accessibility of the immunoglobulin heavy chain enhancer, Molecular Cancer, 6, 1, 2007. Crossref

  21. Galande Sanjeev, Dickinson Liliane A., Mian I. Saira, Sikorska Marianna, Kohwi-Shigematsu Terumi, SATB1 Cleavage by Caspase 6 Disrupts PDZ Domain-Mediated Dimerization, Causing Detachment from Chromatin Early in T-Cell Apoptosis, Molecular and Cellular Biology, 21, 16, 2001. Crossref

  22. Kaplan Mark H., Zong Rui-Ting, Herrscher Richard F., Scheuermann Richard H., Tucker Philip W., Transcriptional Activation by a Matrix Associating Region-binding Protein, Journal of Biological Chemistry, 276, 24, 2001. Crossref

  23. Ishihara Satoru L., Morohashi Ken-ichirou, A boundary for histone acetylation allows distinct expression patterns of the Ad4BP/SF-1 and GCNF loci in adrenal cortex cells, Biochemical and Biophysical Research Communications, 329, 2, 2005. Crossref

  24. Gombert Wendy M., Farris Stephen D., Rubio Eric D., Morey-Rosler Kristin M., Schubach William H., Krumm Anton, Thec -myc Insulator Element and Matrix Attachment Regions Definethe c- myc ChromosomalDomain , Molecular and Cellular Biology, 23, 24, 2003. Crossref

  25. Liu Zhi-Mei, George-Raizen Julia B., Li Shuyu, Meyers Katherine C., Chang Mee Young, Garrard William T., Chromatin Structural Analyses of the Mouse Igκ Gene Locus Reveal New Hypersensitive Sites Specifying a Transcriptional Silencer and Enhancer, Journal of Biological Chemistry, 277, 36, 2002. Crossref

  26. Babu Swathy, Takeuchi Yuki, Masai Ichiro, Banp regulates DNA damage response and chromosome segregation during the cell cycle in zebrafish retina, eLife, 11, 2022. Crossref

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