Dantong Shang scite author profile

Germline stem cells are essential in the generation of both male and female gametes. In mammals, the male testis produces sperm throughout the entire lifetime, facilitated by testicular germline stem cells. Oocyte renewal ceases in postnatal or adult life in mammalian females, suggesting that germline stem cells are absent from the mammalian ovary. However, studies in mice, rats, and humans have recently provided evidence for ovarian female germline stem cells (FGSCs). A better understanding of the role of FGSCs in ovaries could help improve fertility treatments. Here, we developed a rapid and efficient method for isolating FGSCs from ovaries of neonatal mice. Notably, our FGSC isolation method could efficiently isolate on average 15 cell "strings" per ovary from mice at 1-3 days postpartum. FGSCs isolated from neonatal mice displayed the string-forming cell configuration at mitosis ( a "stringing" FGSC (sFGSC) phenotype) and a disperse phenotype in postnatal mice. We also found that sFGSCs undergo vigorous mitosis especially at 1-3 days postpartum. After cell division, the sFGSC membranes tended to be connected to form sFGSCs. Moreover, F-actin filaments exhibited a cell-cortex distribution in sFGSCs, and E-cadherin converged in cell-cell connection regions, resulting in the string-forming morphology. Our new method provides a platform for isolating FGSCs from the neonatal ovary, and our findings indicate that FGCSs exhibit string-forming features in neonatal mice. The sFGSCs represent a valuable resource for analysis of ovary function and an model for future clinical use to address ovarian dysfunction.

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An optimized base editor with efficient C-to-T base editing in zebrafish

Zhao

Shang

Ying

et al. 2020

BMC Biol

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Background Zebrafish is a model organism widely used for the understanding of gene function, including the fundamental basis of human disease, enabled by the presence in its genome of a high number of orthologs to human genes. CRISPR/Cas9 and next-generation gene-editing techniques using cytidine deaminase fused with Cas9 nickase provide fast and efficient tools able to induce sequence-specific single base mutations in various organisms and have also been used to generate genetically modified zebrafish for modeling pathogenic mutations. However, the editing efficiency in zebrafish of currently available base editors is lower than other model organisms, frequently inducing indel formation, which limits the applicability of these tools and calls for the search of more accurate and efficient editors. Results Here, we generated a new base editor (zAncBE4max) with a length of 5560 bp following a strategy based on the optimization of codon preference in zebrafish. Our new editor effectively created C-to-T base substitution while maintaining a high product purity at multiple target sites. Moreover, zAncBE4max successfully generated the Twist2 p.E78K mutation in zebrafish, recapitulating pathological features of human ablepharon macrostomia syndrome (AMS). Conclusions Overall, the zAncBE4max system provides a promising tool to perform efficient base editing in zebrafish and enhances its capacity to precisely model human diseases.

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The small GTPase RAB37 functions as an organizer for autophagosome biogenesis

et al. 2018

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Macroautophagy/autophagy is a catabolic process that is essential for cellular homeostasis. How autophagosomal vesicle forms in a spatio-temporally regulated manner remains elusive. Our recent study revealed that small GTPase, RAB37 (RAB37, member RAS oncogene family), functions as a key organizer of autophagosomal membrane biogenesis. RAB37 interacts with ATG5 (autophagy related 5) and promotes autophagosome formation by modulating ATG12-ATG5-ATG16L1 complex assembly. These findings provide new insights into autophagy regulation.

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Whole genome-wide chromosome fusion and new gene birth in the Monopterus albus genome

et al. 2020

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Background: Teleost fishes account for over half of extant vertebrate species. A core question in biology is how genomic changes drive phenotypic diversity that relates to the origin of teleost fishes. Results: Here, we used comparative genomic analyses with chromosome assemblies of diverse lineages of vertebrates and reconstructed an ancestral vertebrate genome, which revealed phylogenomic trajectories in vertebrates. We found that the whole-genome-wide chromosome fission/fusions took place in the Monopterus albus lineage after the 3-round whole-genome duplication. Four times of genomic fission/fusions events resulted in the whole genomewide chromosome fusions in the genomic history of the lineage. In addition, abundant recently evolved new genes for reproduction emerged in the Monopterus albus after separated from medaka. Notably, we described evolutionary trajectories of conserved blocks related to sex determination genes in teleosts. Conclusions: These data pave the way for a better understanding of genomic evolution in extant teleosts.

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Dantong Shang

Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)¹

Isolation and characterization of string-forming female germline stem cells from ovaries of neonatal mice

An optimized base editor with efficient C-to-T base editing in zebrafish

The small GTPase RAB37 functions as an organizer for autophagosome biogenesis

Whole genome-wide chromosome fusion and new gene birth in the Monopterus albus genome

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About

Dantong Shang

Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)1

Isolation and characterization of string-forming female germline stem cells from ovaries of neonatal mice

An optimized base editor with efficient C-to-T base editing in zebrafish

The small GTPase RAB37 functions as an organizer for autophagosome biogenesis

Whole genome-wide chromosome fusion and new gene birth in the Monopterus albus genome

Contact Info

Product

Resources

About

Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)¹