Regulation of male fertility by CFTR and implications in male infertility.
about
Extracellular microRNAs from the epididymis as potential mediators of cell-to-cell communicationScreening of whole genome sequences identified high-impact variants for stallion fertility.Complexity of the 5'UTR region of the CLCN5 gene: eleven 5'UTR ends are differentially expressed in the human kidneyCFTR interacts with ZO-1 to regulate tight junction assembly and epithelial differentiation through the ZONAB pathway.Cystic fibrosis transmembrane conductance regulator chloride channel blockers: Pharmacological, biophysical and physiological relevance.New insights into the genetic basis of infertilitySNaPshot assay for the detection of the most common CFTR mutations in infertile men.AMPK: a master energy regulator for gonadal function.CFTR Deletion in Mouse Testis Induces VDAC1 Mediated Inflammatory Pathway Critical for Spermatogenesis.Rats undernourished in utero have altered Ca2+ signaling and reduced fertility in adulthood.SLC26 anion exchangers in uterine epithelial cells and spermatozoa: clues from the past and hints to the future.Relevance of genetic investigation in male infertility.Ion channels in the endometrium: regulation of endometrial receptivity and embryo implantation.Ion/water channels for embryo implantation barrier.Assisted reproductive technology results: why are live-birth percentages so low?Non-coding RNA in Spermatogenesis and Epididymal Maturation.Genetics of Male Infertility.Amplification of FSH signaling by CFTR and nuclear soluble adenylyl cyclase in the ovary.Clinical diagnostic Next-Generation sequencing: the case of CFTR carrier screening.Screening of Two Neighboring CFTR Mutations in Iranian Infertile Men with Non-Obstructive Azoospermia.Letter from the editor: CFTR and male fertility-Impact beyond cystic fibrosis.Pathogenic landscape of idiopathic male infertility: new insight towards its regulatory networks.SLC9A3 Protein Is Critical for Acrosomal Formation in Postmeiotic Male Germ Cells.Essential Role of CFTR in PKA-Dependent Phosphorylation, Alkalinization, and Hyperpolarization During Human Sperm Capacitation.Gq activity- and β-arrestin-1 scaffolding-mediated ADGRG2/CFTR coupling are required for male fertility.Congenital bilateral absence of the vas deferens as an atypical form of cystic fibrosis: reproductive implications and genetic counseling.CFTR-β-catenin interaction regulates mouse embryonic stem cell differentiation and embryonic development.Epididymosomes convey different repertoires of microRNAs throughout the bovine epididymis.The IP3 R Binding Protein Released With Inositol 1,4,5-Trisphosphate Is Expressed in Rodent Reproductive Tissue and Spermatozoa.LRRC8/VRAC anion channels are required for late stages of spermatid development in mice
P2860
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P2860
Regulation of male fertility by CFTR and implications in male infertility.
description
2012 nî lūn-bûn
@nan
2012 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
name
Regulation of male fertility by CFTR and implications in male infertility.
@ast
Regulation of male fertility by CFTR and implications in male infertility.
@en
Regulation of male fertility by CFTR and implications in male infertility.
@nl
type
label
Regulation of male fertility by CFTR and implications in male infertility.
@ast
Regulation of male fertility by CFTR and implications in male infertility.
@en
Regulation of male fertility by CFTR and implications in male infertility.
@nl
prefLabel
Regulation of male fertility by CFTR and implications in male infertility.
@ast
Regulation of male fertility by CFTR and implications in male infertility.
@en
Regulation of male fertility by CFTR and implications in male infertility.
@nl
P2093
P2860
P356
P1476
Regulation of male fertility by CFTR and implications in male infertility
@en
P2093
Hsiao Chang Chan
Wen Ming Xu
P2860
P304
P356
10.1093/HUMUPD/DMS027
P50
P577
2012-06-17T00:00:00Z