Abstract
Receptor Associated Protein 80 (RAP80) is a member of RAP80-BRCA1-CCDC98 complex family and helps in its recruitment to the DNA damage site for effective homologous recombination repair. It encompasses two tandem UIMs (UIM1 and UIM2) motif at its N-terminus, which interact with K-63 linked polyubiquitin chain(s) on H2AX and thereby assemble the RAP80-BRCA1 complex at the damage site. Nevertheless, how RAP80 helps in the structural integrity of BRCA1 complex is still elusive. Considering the role of RAP80 in the recruitment of BRCA1 complex at the DNA damage site, we attempted to explore the molecular mechanism associated with RAP80 and mutation that causes chromosomal aberrations due to its loss of function. There is a significant loss in structural characteristics of RAP80 ΔE81, which impairs its binding affinity with the polyubiquitin chain. This leads to the defective recruitment of RAP80 and BRCA1 complex at the DNA damage site. The results presented here are very useful in understanding the cause of various repair defects (chromosomal aberration) that arise due to this mutation. Comparative study of wild type and ΔE81 could be helpful in designing the small molecules that can potentially compensate the deleterious effect(s) of ΔE81 and hence useful for therapeutic application.
Highlights
Compromised genomic integrity leads to various genetic disorders and cancer
Receptor Associated Protein 80 (RAP80) is 80 KDa nuclear protein that interacts with retinoidrelated testis-associated receptor [15]. It is a member of BRCA1 complex and facilitates the recruitment of BRCA1 to the DNA damage site
It is a multifunctional molecule that plays a dispersive role in steroid hormone signaling, and BRCA1 mediated homologous recombination repair
Summary
Compromised genomic integrity leads to various genetic disorders and cancer. genomic stability is accomplished by the recital action of several cellular events, including DNA replication, DNA repair, senescence and cell death [1]. Double strand breaks elicit the activation of ATM and ATR kinases, which phosphorylate histone variant H2AX and MDC1 [5] [6] [7] [8] [9,10] [3]. This event endorses the assembly of DDR mediators, which in turn facilitate the recruitment of UBC13/RNF8 to the DNA damage sites [11] [12,13] [14].
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