RAB37-mediated autophagy guards ovarian homeostasis and function.

Loss of ovarian homeostasis is associated with ovary dysfunction and female diseases; however, the underlying mechanisms responsible for the establishment of homeostasis and its function in the ovary have not been fully elucidated. Here, we showed that conditional knockout of in oocytes impaired macroautophagy/autophagy proficiency in the ovary and interfered with follicular homeostasis and ovary development in mice. Flunarizine treatment upregulated autophagy, thus rescuing the impairment of follicular homeostasis and ovarian dysfunction in knockout mice by reprogramming of homeostasis.

RPGR is a guanine nucleotide exchange factor for the small GTPase RAB37 required for retinal function via autophagy regulation.

Although the small GTPase RAB37 acts as an organizer of autophagosome biogenesis, the upstream regulatory mechanism of autophagy via guanosine diphosphate (GDP)-guanosine triphosphate (GTP) exchange in maintaining retinal function has not been determined. We found that retinitis pigmentosa GTPase regulator (RPGR) is a guanine nucleotide exchange factor that activates RAB37 by accelerating GDP-to-GTP exchange. RPGR directly interacts with RAB37 via the RPGR-RCC1-like domain to promote autophagy through stimulating exchange.

RNF20 is required for male fertility through regulation of H2B ubiquitination in the Sertoli cells.

Background: Spermatogenesis depends on the supporting of the Sertoli cells and their communications with germ cells. However, the regulation of crosstalk between the Sertoli cells and germ cells remains unclear.

Results: In this report, we used conditional knockout technology to generate the Sertoli cells-specific knockout of Rnf20 in mice.

PGCLCs of human 45,XO reveal pathogenetic pathways of neurocognitive and psychosocial disorders.

Background: Neurocognitive disorders and psychosocial difficulties are common in patients with Turner syndrome and multiple neurodegenerative diseases, yet there is no effective cure. Human primordial germ cells (hPGCs) are pluripotent germline stem cells in early embryo, which pass genetic information from one generation to the next, whereas all somatic cells will die along with the end of life. However, it is not known whether patient hPGCs with Turner syndrome contain information of neurocognitive and psychosocial illness.

Germline stem cells in human.

The germline cells are essential for the propagation of human beings, thus essential for the survival of mankind. The germline stem cells, as a unique cell type, generate various states of germ stem cells and then differentiate into specialized cells, spermatozoa and ova, for producing offspring, while self-renew to generate more stem cells. Abnormal development of germline stem cells often causes severe diseases in humans, including infertility and cancer.

Decoding genome recombination and sex reversal.

Over the past 440 years since the discovery of the medicinal value of swamp eels, much progress has been made in the study of their biology. The fish is emerging as an important model animal in sexual development, in addition to economic and pharmaceutical implications. Tracing genomic history that shapes speciation of the fish has led to discovery of the whole genome-wide chromosome fission/fusion events.

Identification of Histone Modifications Reveals a Role of H2b Monoubiquitination in Transcriptional Regulation of in .

Gonadal trans-differentiation from ovary to testis occurs in a same individual, suggesting a role of epigenetic regulation. However, histone modifications concerning the sex reversal process remain elusive. We analyzed histone modifications using liquid chromatography-tandem mass spectrometry (LC-MS/MS).

SPATA33 functions as a mitophagy receptor in mammalian germline.

Mitophagy is an essential mechanism in maintaining cellular homeostasis, in which damaged and superfluous mitochondria are selectively degraded by the autophagy-lysosome pathway. Our recent study revealed that SPATA33 functions as a novel receptor for mitophagy in the priming of mitochondria for degradation in male germline cells. SPATA33 directly mediates the interaction of the outer mitochondrial membrane protein VDAC2 with the autophagy machinery component ATG16L1 during mitophagy.

DNA methylation modification is associated with gonadal differentiation in Monopterus albus.

Background: Both testis and ovary can be produced sequentially in an individual with the same genome when sex reversal occurs in the teleost Monopterus albus, and epigenetic modification is supposed to be involved in gonadal differentiation. However, DNA methylation regulation mechanism underlying the gonadal differentiation remains unclear.

Results: Here, we used liquid chromatography-electrospray ionization tandem mass spectrometry (LC-ESI-MS/MS) to simultaneously determine endogenous levels of both 5-methyl-2'-deoxycytidine (mdC) and 5-hydroxymethyl-2'-deoxycytidine (hmdC) during gonadal differentiation.

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

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.

SPATA33 is an autophagy mediator for cargo selectivity in germline mitophagy.

Selective autophagic degradation of mitochondria (mitophagy) is important in maintaining proper cellular homeostasis. Here, we found that SPATA33 is a novel autophagy mediator for mitophagy in testis. The SPATA33 protein localizes on mitochondria via its binding of the carboxyl terminal with the outer mitochondrial membrane protein VDAC2.

multiple alleles, transcription activation and evolution in mammals.

Detecting selection signatures in genomes that relates to transcription regulation has been challenges in genetic analysis. Here, we report a set of transcription factors EBF1, E2F1 and EGR2 for transcription activation of promoter by a comparative analysis of promoter activities of in humans, mice, and pigs. Two of the transcription factors bound to and co-regulated promoter in each species.

Srag Regulates Autophagy via Integrating into a Preexisting Autophagy Pathway in Testis.

Spermatogenesis is an essential process for producing sperm cells. Reproductive strategy is successfully evolved for a species to adapt to a certain ecological system. However, roles of newly evolved genes in testis autophagy remain unclear.

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

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.

Sex differences in autophagy-mediated diseases: toward precision medicine.

Nearly all diseases in humans, to a certain extent, exhibit sex differences, including differences in the onset, progression, prevention, therapy, and prognosis of diseases. Accumulating evidence shows that macroautophagy/autophagy, as a mechanism for development, differentiation, survival, and homeostasis, is involved in numerous aspects of sex differences in diseases such as cancer, neurodegeneration, and cardiovascular diseases. Advances in our knowledge regarding sex differences in autophagy-mediated diseases have enabled an understanding of their roles in human diseases, although the underlying molecular mechanisms of sex differences in autophagy remain largely unexplored.

Teaching practice in human genetics integrated into general education.

General education is an important part in higher education, which emphasizes the educational idea of integration of generality with specialty, and practices people-oriented education concept. However, there are some difficulties and puzzles in general education. Now the general education system with Chinese characteristics is needed to be established through practice and development.

Gene essentiality of : dosage effect and autophagy regulation in retinal photoreceptors.

Photoreceptor degeneration and damages often lead to blindness, and the underlying molecular mechanisms are largely unknown. There is also a lot of missing information for establishing the role of macroautophagy/autophagy in the retinopathy. We recently generated knockout mouse lines of the essential gene (tubulin, gamma complex associated protein 4) and revealed an interplay between essential genes and autophagy regulation.

P11 Loss-of-Function is Associated with Decreased Cell Proliferation and Neurobehavioral Disorders in Mice.

Although depression is associated with anxiety and memory deficit in humans, the molecular mechanisms of the complication remain largely unknown. In this study, we generated knockout mice using CRISPR/Cas9 technology, as well as knockout MEF cell lines, and confirmed depression-like phenotype. We observed that knockout of in MEFs led to a decreased cell proliferation compared with MEFs.

Haploinsufficiency of GCP4 induces autophagy and leads to photoreceptor degeneration due to defective spindle assembly in retina.

Retinopathy, owing to damage to the retina, often causes vision impairment, and the underlying molecular mechanisms are largely unknown. Using a gene targeting strategy, we generated mice with the essential gene Tubgcp4 knocked out. Homozygous mutation of Tubgcp4 resulted in early embryonic lethality due to abnormal spindle assembly caused by GCP4 (gamma-tubulin complex protein 4, encoded by Tubgcp4) depletion.

The genome-wide landscape of small insertion and deletion mutations in Monopterus albus.

Insertion and deletion (indel) mutations, which can trigger single nucleotide substitutions on the flanking regions of genes, may generate abundant materials for disease defense, reproduction, species survival and evolution. However, genetic and evolutionary mechanisms of indels remain elusive. We establish a comparative genome-transcriptome-alignment approach for a large-scale identification of indels in Monopterus population.

Loss-of-function of sox3 causes follicle development retardation and reduces fecundity in zebrafish.

Folliculogenesis is essential for production of female gametes in vertebrates. However, the molecular mechanisms underlying follicle development, particularly apoptosis regulation in ovary, remain elusive. Here, we generated sox3 knockout zebrafish lines using CRISPR/Cas9.