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چکیده
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Background During mammalian spermatogenesis, the cytoskeleton system plays a significant role in morphological
changes. Male infertility such as non-obstructive azoospermia (NOA) might be explained by studies of the cytoskeletal
system during spermatogenesis.
Methods The cytoskeleton, scaffold, and actin-binding genes were analyzed by microarray and bioinformatics (771
spermatogenic cellsgenes and 774 Sertoli cell genes). To validate these findings, we cross-referenced our results
with data from a single-cell genomics database.
Results In the microarray analyses of three human cases with different NOA spermatogenic cells, the expression
of TBL3, MAGEA8, KRTAP3-2, KRT35, VCAN, MYO19, FBLN2, SH3RF1, ACTR3B, STRC , THBS4, and CTNND2 were upregulated,
while expression of NTN1, ITGA1, GJB1, CAPZA1, SEPTIN8, and GOLGA6L6 were downregulated. There was an increase
in KIRREL3, TTLL9, GJA1, ASB1, and RGPD5 expression in the Sertoli cells of three human cases with NOA, whereas
expression of DES, EPB41L2, KCTD13, KLHL8, TRIOBP, ECM2, DVL3, ARMC10, KIF23, SNX4, KLHL12, PACSIN2, ANLN, WDR90,
STMN1, CYTSA, and LTBP3 were downregulated. A combined analysis of Gene Ontology (GO) and STRING, were used
to predict proteins’ molecular interactions and then to recognize master pathways. Functional enrichment analysis
showed that the biological process (BP) mitotic cytokinesis, cytoskeleton-dependent cytokinesis, and positive regulation
of cell-substrate adhesion were significantly associated with differentially expressed genes (DEGs) in spermatogenic
cells. Moleculare function (MF) of DEGs that were up/down regulated, it was found that tubulin bindings, gap
junction channels, and tripeptide transmembrane transport were more significant in our analysis. An analysis of GO
enrichment findings of Sertoli cells showed BP and MF to be common DEGs. Cell-cell junction assembly, cell-matrix
adhesion, and regulation of SNARE complex assembly were significantly correlated with common DEGs for BP. I
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