prophase of meiosis
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PLoS Genetics ◽  
2021 ◽  
Vol 17 (6) ◽  
pp. e1009646
Author(s):  
Yota Hagihara ◽  
Satoshi Asada ◽  
Takahiro Maeda ◽  
Toru Nakano ◽  
Shinpei Yamaguchi

Pericentromeric heterochromatin (PCH), the constitutive heterochromatin of pericentromeric regions, plays crucial roles in various cellular events, such as cell division and DNA replication. PCH forms chromocenters in the interphase nucleus, and chromocenters cluster at the prophase of meiosis. Chromocenter clustering has been reported to be critical for the appropriate progression of meiosis. However, the molecular mechanisms underlying chromocenter clustering remain elusive. In this study, we found that global DNA hypomethylation, 5hmC enrichment in PCH, and chromocenter clustering of Dnmt1-KO ESCs were similar to those of the female meiotic germ cells. Tet1 is essential for the deposition of 5hmC and facultative histone marks of H3K27me3 and H2AK119ub at PCH, as well as chromocenter clustering. RING1B, one of the core components of PRC1, is recruited to PCH by TET1, and PRC1 plays a critical role in chromocenter clustering. In addition, the rearrangement of the chromocenter under DNA hypomethylated condition was mediated by liquid-liquid phase separation. Thus, we demonstrated a novel role of Tet1 in chromocenter rearrangement in DNA hypomethylated cells.


2021 ◽  
Vol 12 (6) ◽  
Author(s):  
Qiang Fang ◽  
Xue-Lin Chen ◽  
Lei Zhang ◽  
Ya-Bin Li ◽  
Tian-Zeng Sun ◽  
...  

AbstractMonopolar spindle 1 (MPS1), which plays a critical role in somatic mitosis, has also been revealed to be essential for meiosis I in oocytes. Spermatogenesis is an important process involving successive mitosis and meiosis, but the function of MPS1 in spermatogenesis remains unclear. Here, we generated Mps1 conditional knockout mice and found that Ddx4-cre-driven loss of Mps1 in male mice resulted in depletion of undifferentiated spermatogonial cells and subsequently of differentiated spermatogonia and spermatocytes. In addition, Stra8-cre-driven ablation of Mps1 in male mice led to germ cell loss and fertility reduction. Spermatocytes lacking Mps1 have blocked at the zygotene-to-pachytene transition in the prophase of meiosis I, which may be due to decreased H2B ubiquitination level mediated by MDM2. And the expression of many meiotic genes was decreased, while that of apoptotic genes was increased. Moreover, we also detected increased apoptosis in spermatocytes with Mps1 knockout, which may have been the reason why germ cells were lost. Taken together, our findings indicate that MPS1 is required for mitosis of gonocytes and spermatogonia, differentiation of undifferentiated spermatogonia, and progression of meiosis I in spermatocytes.


2021 ◽  
Vol 12 (5) ◽  
Author(s):  
Qiang Liu ◽  
Qianying Guo ◽  
Wei Guo ◽  
Shi Song ◽  
Nan Wang ◽  
...  

AbstractThe spermatogenesis process is complex and delicate, and any error in a step may cause spermatogenesis arrest and even male infertility. According to our previous transcriptomic data, CEP70 is highly expressed throughout various stages of human spermatogenesis, especially during the meiosis and deformation stages. CEP70 is present in sperm tails and that it exists in centrosomes as revealed by human centrosome proteomics. However, the specific mechanism of this protein in spermatogenesis is still unknown. In this study, we found a heterozygous site of the same mutation on CEP70 through mutation screening of patients with clinical azoospermia. To further verify, we deleted CEP70 in mice and found that it caused abnormal spermatogenesis, leading to male sterility. We found that the knockout of CEP70 did not affect the prophase of meiosis I, but led to male germ-cell apoptosis and abnormal spermiogenesis. By transmission electron microscopy (TEM) and scanning electron microscopy (SEM) analysis, we found that the deletion of CEP70 resulted in the abnormal formation of flagella and acrosomes during spermiogenesis. Tandem mass tag (TMT)-labeled quantitative proteomic analysis revealed that the absence of CEP70 led to a significant decrease in the proteins associated with the formation of the flagella, head, and acrosome of sperm, and the microtubule cytoskeleton. Taken together, our results show that CEP70 is essential for acrosome biogenesis and flagella formation during spermiogenesis.


2020 ◽  
Author(s):  
Régis E Meyer ◽  
Aaron R Tipton ◽  
Gary J Gorbsky ◽  
Dean S Dawson

ABSTRACTIn prophase of meiosis I, homologous partner chromosomes pair and become connected by crossovers. Chiasmata, the connections formed between the partners enable the chromosome pair, called a bivalent, to attach as a single unit to the spindle. When the meiosis I spindle forms in prometaphase, most bivalents are associated with a single spindle pole and go through a series of oscillations on the spindle, attaching to and detaching from microtubules until the partners of the bivalent are bi-oriented, that is, attached to microtubules from opposite sides of the spindle, and prepared to be segregated at anaphase I. The conserved, kinetochore-associated kinase, Mps1, is essential for the bivalents to be pulled by microtubules across the spindle in prometaphase. Here we show that MPS1 is not required for kinetochores to attach microtubules but instead is necessary to trigger the migration of microtubule-attached kinetochores towards the poles. Our data support the model that Mps1 triggers depolymerization of microtubule ends once they attach to kinetochores in prometaphase. Thus, Mps1 acts at the kinetochore to co-ordinate the successful attachment of a microtubule and the triggering of microtubule depolymerization to move the chromosome.


2015 ◽  
Vol 45 (3) ◽  
pp. 207-223
Author(s):  
T. Kazimierski ◽  
E. Kazimierska

Amon g the hybrids of the cultivated form named 'Batavo', originating from Holland, and 6 primitive forms of the yellow lupin was one hybrid combination found (Batavo X primitive No. 5), which in F<sub>2</sub> and F<sub>3</sub> gives fertile and sterile plants with the ratio 3 : 1. The gene causing sterility was appeased as a result of crossing over at the time of prophase of meiosis in the sporogenic cells of F<sub>1</sub> plants. This gene in homozygotic condition in F<sub>2</sub> and F<sub>3</sub> plants causes the coalescence of chromosomes, disturbances in the process of meiosis and microsporogenesis what leads to forms with non viable microspores. The sterile plants blossom abundantly but they give not pods and seeds.


PLoS ONE ◽  
2013 ◽  
Vol 8 (9) ◽  
pp. e75116 ◽  
Author(s):  
Steven Hann ◽  
Laura Kvenvold ◽  
Brittney N. Newby ◽  
Minh Hong ◽  
Matthew L. Warman

2009 ◽  
Vol 20 (11) ◽  
pp. 2709-2721 ◽  
Author(s):  
Michael A. Anderson ◽  
Jeanne N. Jodoin ◽  
Ethan Lee ◽  
Karen G. Hales ◽  
Thomas S. Hays ◽  
...  

Spermatogenesis uses mitotic and meiotic cell cycles coordinated with growth and differentiation programs to generate functional sperm. Our analysis of a Drosophila mutant has revealed that asunder (asun), which encodes a conserved protein, is an essential regulator of spermatogenesis. asun spermatocytes arrest during prophase of meiosis I. Strikingly, arrested spermatocytes contain free centrosomes that fail to stably associate with the nucleus. Spermatocytes that overcome arrest exhibit severe defects in meiotic spindle assembly, chromosome segregation, and cytokinesis. Furthermore, the centriole-derived basal body is detached from the nucleus in asun postmeiotic spermatids, resulting in abnormalities later in spermatogenesis. We find that asun spermatocytes and spermatids exhibit drastic reduction of perinuclear dynein–dynactin, a microtubule motor complex. We propose a model in which asun coordinates spermatogenesis by promoting dynein–dynactin recruitment to the nuclear surface, a poorly understood process required for nucleus–centrosome coupling at M phase entry and fidelity of meiotic divisions.


Hereditas ◽  
2009 ◽  
Vol 86 (2) ◽  
pp. 205-210 ◽  
Author(s):  
I. KLÁŠTERSKÁ
Keyword(s):  

2009 ◽  
Vol 21 (8) ◽  
pp. 976 ◽  
Author(s):  
Tasman Daish ◽  
Aaron Casey ◽  
Frank Grützner

Monotremes are phylogenetically and phenotypically unique animals with an unusually complex sex chromosome system that is composed of ten chromosomes in platypus and nine in echidna. These chromosomes are alternately linked (X1Y1, X2Y2, …) at meiosis via pseudoautosomal regions and segregate to form spermatozoa containing either X or Y chromosomes. The physical and epigenetic mechanisms involved in pairing and assembly of the complex sex chromosome chain in early meiotic prophase I are completely unknown. We have analysed the pairing dynamics of specific sex chromosome pseudoautosomal regions in platypus spermatocytes during prophase of meiosis I. Our data show a highly coordinated pairing process that begins at the terminal Y5 chromosome and completes with the union of sex chromosomes X1Y1. The consistency of this ordered assembly of the chain is remarkable and raises questions about the mechanisms and factors that regulate the differential pairing of sex chromosomes and how this relates to potential meiotic silencing mechanisms and alternate segregation.


Endocrinology ◽  
2008 ◽  
Vol 149 (9) ◽  
pp. 4292-4300 ◽  
Author(s):  
Ted B. Usdin ◽  
Mark Paciga ◽  
Tim Riordan ◽  
Jonathan Kuo ◽  
Alissa Parmelee ◽  
...  

Tuberoinfundibular peptide of 39 residues (TIP39) was identified as a PTH 2 receptor ligand. We report that mice with deletion of Tifp39, the gene encoding TIP39, are sterile. Testes contained Leydig and Sertoli cells and spermatogonia but no spermatids. Labeling chromosome spreads with antibodies to proteins involved in recombination showed that spermatogonia do not complete prophase of meiosis I. Chromosomes were observed at different stages of recombination in single nuclei, a defect not previously described with mutations in genes known to be specifically involved in DNA replication and recombination. TIP39 was previously shown to be expressed in neurons projecting to the hypothalamus and within the testes. LH and FSH were slightly elevated in Tifp39−/− mice, suggesting intact hypothalamic function. We found using in situ hybridization that the genes encoding TIP39 and the PTH 2 receptor are expressed in a stage-specific manner within seminiferous tubules. Using immunohistochemistry and quantitative RT-PCR, TIP39 expression is greatest in mature testes, and appears most abundant in postmeiotic spermatids, but TIP39 protein and mRNA can be detected before any cells have completed meiosis. We used mice that express Cre recombinase under control of a spermatid-specific promoter to express selectively a cDNA encoding TIP39 in the testes of Tifp39−/− mice. Spermatid production and fertility were rescued, demonstrating that the defect in Tifp39−/− mice was due to the loss of TIP39. These results show that TIP39 is essential for germ cell development and suggest that it may act as an autocrine or paracrine agent within the gonads.


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