Regulation of Differentiation in Meiotic Cells: Impact of CudA on Ca2+ Dynamics and Actin Remodeling

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This study explores the differential regulation of differentiation in meiotic cells, focusing on the role of CudA. It investigates the upregulation and downregulation of various proteins, including MEI2 and POLB, in response to oxidative stress. Key mechanisms such as Ca2+ release and actin remodeling are examined, along with the role of LAV1-2 and other associated proteins like EF1A and CYSP2. The findings highlight the significance of these processes in cell division and the response to cell wall damage via the ACTOPH and FRGP pathways.

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May 03, 2026

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1 cuda regulation 2 cell differentiation 3 ca2 signaling 4 oxidative stress 5 actin remodeling 6 protein cleavage 7 mei2 function 8 cytoskeletal dynamics text

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Regulation of Differentiation in Meiotic Cells: Impact of CudA on Ca2+ Dynamics and Actin Remodeling

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downregulated upregulated CudA regulation of differentiation MEI2 cell division Ca2+ LAV1-2 protein cleavage oxidative stress POLB CYSP2 EF1A Ca2+ release actin remodeling SPIRE ACTINP FRGP WSC1 cell wall damage AFK PROP ACTOPH

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