Linking human Dead end 1 (DND1) variants to male infertility employing zebrafish embryos

Abstract: STUDY QUESTION Is the vertebrate protein Dead end (DND1) a causative factor for human infertility and can novel in vivo assays in zebrafish help in evaluating this? SUMMARY ANSWER Combining patient genetic data with functional in vivo assays in zebrafish reveals a possible role for DND1 in human male fertility. WHAT IS KNOWN ALREADY About 7% of the male popul… Show more

“…A key component localized to these organelles is Dead end (Dnd1), a conserved vertebrate-specific RNA-binding protein that is essential for germline development. Loss of the protein can result in sterility and formation of germ cell tumors [14][15][16][17][18][19][20] and accordingly, recent work showed that germ cells with impaired Dnd1 function fail to maintain their totipotency and acquire somatic fates 21 . Despite the central role of Dnd1 in controlling the development of the vertebrate germline, the precise molecular function of the protein in the context of the phase-separated structures within which it resides is unknown.…”

Spatial organization and function of RNA molecules within phase-separated condensates are controlled by Dnd1

“…A key component localized to these organelles is Dead end (Dnd1), a conserved vertebrate-specific RNA-binding protein that is essential for germline development. Loss of the protein can result in sterility and formation of germ cell tumors [14][15][16][17][18][19][20] and accordingly, recent work showed that germ cells with impaired Dnd1 function fail to maintain their totipotency and acquire somatic fates 21 . Despite the central role of Dnd1 in controlling the development of the vertebrate germline, the precise molecular function of the protein in the context of the phase-separated structures within which it resides is unknown.…”

Spatial organization and function of RNA molecules within phase-separated condensates are controlled by Dnd1

Detection of the effect of microvibrational stimulation on human discarded immature oocytes by single-cell transcriptome sequencing technology

Spatial organization and function of RNA molecules within phase-separated condensates in zebrafish are controlled by Dnd1