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1.
Mol Biol Evol ; 41(6)2024 Jun 01.
Artigo em Inglês | MEDLINE | ID: mdl-38880992

RESUMO

Although evolution is driven by changes in how regulatory pathways control development, we know little about the molecular details underlying these transitions. The TRA-2 domain that mediates contact with TRA-1 is conserved in Caenorhabditis. By comparing the interaction of these proteins in two species, we identified a striking change in how sexual development is controlled. Identical mutations in this domain promote oogenesis in Caenorhabditis elegans but promote spermatogenesis in Caenorhabditis briggsae. Furthermore, the effects of these mutations involve the male-promoting gene fem-3 in C. elegans but are independent of fem-3 in C. briggsae. Finally, reciprocal mutations in these genes show that C. briggsae TRA-2 binds TRA-1 to prevent expression of spermatogenesis regulators. By contrast, in C. elegans TRA-1 sequesters TRA-2 in the germ line, allowing FEM-3 to initiate spermatogenesis. Thus, we propose that the flow of information within the sex determination pathway has switched directions during evolution. This result has important implications for how evolutionary change can occur.


Assuntos
Proteínas de Caenorhabditis elegans , Caenorhabditis elegans , Processos de Determinação Sexual , Espermatogênese , Animais , Proteínas de Caenorhabditis elegans/genética , Proteínas de Caenorhabditis elegans/metabolismo , Caenorhabditis elegans/genética , Masculino , Espermatogênese/genética , Feminino , Caenorhabditis/genética , Evolução Biológica , Proteínas de Ligação a RNA/genética , Proteínas de Ligação a RNA/metabolismo , Mutação , Oogênese/genética , Evolução Molecular , Autofertilização , Proteínas de Ligação a DNA , Fatores de Transcrição
2.
Proc Natl Acad Sci U S A ; 116(20): 9941-9946, 2019 05 14.
Artigo em Inglês | MEDLINE | ID: mdl-31028139

RESUMO

Poly(ADP-ribose) polymerase 1 (PARP-1) is a multidomain multifunctional nuclear enzyme involved in the regulation of the chromatin structure and transcription. PARP-1 consists of three functional domains: the N-terminal DNA-binding domain (DBD) containing three zinc fingers, the automodification domain (A), and the C-terminal domain, which includes the protein interacting WGR domain (W) and the catalytic (Cat) subdomain responsible for the poly(ADP ribosyl)ating reaction. The mechanisms coordinating the functions of these domains and determining the positioning of PARP-1 in chromatin remain unknown. Using multiple deletional isoforms of PARP-1, lacking one or another of its three domains, as well as consisting of only one of those domains, we demonstrate that different functions of PARP-1 are coordinated by interactions among these domains and their targets. Interaction between the DBD and damaged DNA leads to a short-term binding and activation of PARP-1. This "hit and run" activation of PARP-1 initiates the DNA repair pathway at a specific point. The long-term chromatin loosening required to sustain transcription takes place when the C-terminal domain of PARP-1 binds to chromatin by interacting with histone H4 in the nucleosome. This long-term activation of PARP-1 results in a continuous accumulation of pADPr, which maintains chromatin in the loosened state around a certain locus so that the transcription machinery has continuous access to DNA. Cooperation between the DBD and C-terminal domain occurs in response to heat shock (HS), allowing PARP-1 to scan chromatin for specific binding sites.


Assuntos
Poli(ADP-Ribose) Polimerase-1/metabolismo , Animais , Cromatina/metabolismo , Drosophila , Ativação Enzimática , Histonas/metabolismo , Domínios Proteicos , Ativação Transcricional
3.
MicroPubl Biol ; 20232023.
Artigo em Inglês | MEDLINE | ID: mdl-37746063

RESUMO

Although nematode genetics was founded on the use of hermaphrodite genetics for studying animal development and behavior, there is a growing need to extend this work to male/female species. One of the most promising species is C. nigoni, because it is so closely related to the model hermaphroditic C. briggsae. We present methods for using CRISPR/Cas9 gene editing to create mutations, and techniques for balancing, maintaining and studying these mutations.

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