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Literature DB >> 17627904

Ortholog of BRCA2-interacting protein BCCIP controls morphogenetic responses during DNA replication stress in Ustilago maydis.

Ninghui Mao¹, Qingwen Zhou, Milorad Kojic, José Pérez-Martín, William K Holloman.

Abstract

The BRCA2 tumor suppressor functions in repair of DNA by homologous recombination through regulating the action of Rad51. In turn, BRCA2 appears to be regulated by other interacting proteins. Dss1, a small interacting protein that binds to the C-terminal domain, has a profound effect on activity as deduced from studies on the BRCA2-related protein Brh2 in Ustilago maydis. Evidence accumulating in mammalian systems suggests that BCCIP, another small interacting protein that binds to the C-terminal domain of BRCA2, also serves to regulate homologous recombination activity. Here we were interested in testing the role of the putative U. maydis BCCIP ortholog Bcp1 in DNA repair and recombination. In keeping with the mammalian paradigm, Bcp1 bound to the C-terminal region of Brh2. Mutants deleted of the gene were extremely slow growing, showed a delay passing through S phase and exhibited sensitivity to hydroxyurea, but were otherwise normal in DNA repair and homologous recombination. In the absence of Bcp1 cells were unable to maintain the wild type morphology when challenged by a DNA replication stress. These results suggest that Bcp1 could be involved in coordinating morphogenetic events with DNA processing during replication.

Entities: Chemical Disease Gene Species

Mesh：

Substances：
Fungal Proteins

Year: 2007 PMID： 17627904 PMCID： PMC2696116 DOI： 10.1016/j.dnarep.2007.05.012

Source DB: PubMed Journal: DNA Repair (Amst) ISSN： 1568-7856

36 in total

1. BRCA2 is required for homology-directed repair of chromosomal breaks.

Authors: M E Moynahan; A J Pierce; M Jasin
Journal: Mol Cell Date: 2001-02 Impact factor: 17.970

2. Rec2 interplay with both Brh2 and Rad51 balances recombinational repair in Ustilago maydis.

Authors: Milorad Kojic; Qingwen Zhou; Michael Lisby; William K Holloman
Journal: Mol Cell Biol Date: 2006-01 Impact factor: 4.272

3. Dss1 interaction with Brh2 as a regulatory mechanism for recombinational repair.

Authors: Qingwen Zhou; Milorad Kojic; Zhimin Cao; Michael Lisby; Nayef A Mazloum; William K Holloman
Journal: Mol Cell Biol Date: 2007-01-29 Impact factor: 4.272

Review 4. Pathocycles: Ustilago maydis as a model to study the relationships between cell cycle and virulence in pathogenic fungi.

Authors: José Pérez-Martín; Sonia Castillo-Lluva; Cecilia Sgarlata; Ignacio Flor-Parra; Natalia Mielnichuk; Joaquín Torreblanca; Natalia Carbó
Journal: Mol Genet Genomics Date: 2006-07-29 Impact factor: 3.291

5. Shuttle vectors for genetic manipulations in Ustilago maydis.

Authors: M Kojic; W K Holloman
Journal: Can J Microbiol Date: 2000-04 Impact factor: 2.419

6. TOK-1, a novel p21Cip1-binding protein that cooperatively enhances p21-dependent inhibitory activity toward CDK2 kinase.

Authors: T Ono; H Kitaura; H Ugai; T Murata; K K Yokoyama; S M Iguchi-Ariga; H Ariga
Journal: J Biol Chem Date: 2000-10-06 Impact factor: 5.157

7. A human BRCA2 complex containing a structural DNA binding component influences cell cycle progression.

Authors: L Y Marmorstein; A V Kinev; G K Chan; D A Bochar; H Beniya; J A Epstein; T J Yen; R Shiekhattar
Journal: Cell Date: 2001-01-26 Impact factor: 41.582

8. Absence of Brca2 causes genome instability by chromosome breakage and loss associated with centrosome amplification.

Authors: A Tutt; A Gabriel; D Bertwistle; F Connor; H Paterson; J Peacock; G Ross; A Ashworth
Journal: Curr Biol Date: 1999-10-07 Impact factor: 10.834

9. The induction of the mating program in the phytopathogen Ustilago maydis is controlled by a G1 cyclin.

Authors: Sonia Castillo-Lluva; José Pérez-Martín
Journal: Plant Cell Date: 2005-10-28 Impact factor: 11.277

10. Checkpoint proteins control morphogenetic events during DNA replication stress in Saccharomyces cerevisiae.

Authors: Jorrit M Enserink; Marcus B Smolka; Huilin Zhou; Richard D Kolodner
Journal: J Cell Biol Date: 2006-11-27 Impact factor: 10.539

10 in total

1. Expression pattern of BCCIP in hepatocellular carcinoma is correlated with poor prognosis and enhanced cell proliferation.

Authors: Zhipeng Lin; Baoying Hu; Wenkai Ni; Xiaofei Mao; Huiling Zhou; Jiale Lv; Bihui Yin; Zhongyi Shen; Miaomiao Wu; Wensen Ding; Mingbing Xiao; Runzhou Ni
Journal: Tumour Biol Date: 2016-11-10

2. High Expression of BCCIP β Can Promote Proliferation of Esophageal Squamous Cell Carcinoma.

Authors: Lingling Chen; Sujie Ni; Mei Li; Chaoyan Shen; Zhipeng Lin; Yu Ouyang; Fei Xia; Li Liang; Wenyan Jiang; Runzhou Ni; Jianguo Zhang
Journal: Dig Dis Sci Date: 2016-12-19 Impact factor: 3.199

3. Distinct RAD51 associations with RAD52 and BCCIP in response to DNA damage and replication stress.

Authors: Justin Wray; Jingmei Liu; Jac A Nickoloff; Zhiyuan Shen
Journal: Cancer Res Date: 2008-04-15 Impact factor: 12.701

4. BCCIP suppresses tumor initiation but is required for tumor progression.

Authors: Yi-Yuan Huang; Li Dai; Dakim Gaines; Roberto Droz-Rosario; Huimei Lu; Jingmei Liu; Zhiyuan Shen
Journal: Cancer Res Date: 2013-10-21 Impact factor: 12.701

5. Spontaneous Development of Hepatocellular Carcinoma and B-Cell Lymphoma in Mosaic and Heterozygous Brca2 and Cdkn1a Interacting Protein Knockout Mice.

Authors: Huimei Lu; Caiyong Ye; Xing Feng; Jingmei Liu; Mantu Bhaumik; Bing Xia; Chen Liu; Zhiyuan Shen
Journal: Am J Pathol Date: 2020-03-20 Impact factor: 4.307