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309 related items for PubMed ID: 29247344

  • 1. Molecular study of human sperm RNA: Ropporin and CABYR in asthenozoospermia.
    Pelloni M, Paoli D, Majoli M, Pallotti F, Carlini T, Lenzi A, Lombardo F.
    J Endocrinol Invest; 2018 Jul; 41(7):781-787. PubMed ID: 29247344
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  • 2. CABYR isoforms expressed in late steps of spermiogenesis bind with AKAPs and ropporin in mouse sperm fibrous sheath.
    Li YF, He W, Kim YH, Mandal A, Digilio L, Klotz K, Flickinger CJ, Herr JC.
    Reprod Biol Endocrinol; 2010 Aug 23; 8():101. PubMed ID: 20731842
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  • 3. Ropporin gene expression in infertile asthenozoospermic men with varicocele before and after repair.
    Amer MK, Mostafa RM, Fathy A, Saad HM, Mostafa T.
    Urology; 2015 Apr 23; 85(4):805-8. PubMed ID: 25704993
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  • 9. Loss of R2D2 proteins ROPN1 and ROPN1L causes defects in murine sperm motility, phosphorylation, and fibrous sheath integrity.
    Fiedler SE, Dudiki T, Vijayaraghavan S, Carr DW.
    Biol Reprod; 2013 Feb 23; 88(2):41. PubMed ID: 23303679
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  • 10. Sperm phosphoproteome profiling by ultra performance liquid chromatography followed by data independent analysis (LC-MS(E)) reveals altered proteomic signatures in asthenozoospermia.
    Parte PP, Rao P, Redij S, Lobo V, D'Souza SJ, Gajbhiye R, Kulkarni V.
    J Proteomics; 2012 Oct 22; 75(18):5861-71. PubMed ID: 22796355
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  • 11. Incidence of sperm-tail tyrosine phosphorylation and hyperactivated motility in normozoospermic and asthenozoospermic human sperm samples.
    Yunes R, Doncel GF, Acosta AA.
    Biocell; 2003 Apr 22; 27(1):29-36. PubMed ID: 12847912
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  • 12. TAT-peroxiredoxin 2 Fusion Protein Supplementation Improves Sperm Motility and DNA Integrity in Sperm Samples from Asthenozoospermic Men.
    Liu J, Zhu P, Wang WT, Li N, Liu X, Shen XF, Wang YW, Li Y.
    J Urol; 2016 Mar 22; 195(3):706-12. PubMed ID: 26585682
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  • 13. Copy number variation of functional RBMY1 is associated with sperm motility: an azoospermia factor-linked candidate for asthenozoospermia.
    Yan Y, Yang X, Liu Y, Shen Y, Tu W, Dong Q, Yang D, Ma Y, Yang Y.
    Hum Reprod; 2017 Jul 01; 32(7):1521-1531. PubMed ID: 28498920
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  • 14. CRISP2, CATSPER1 and PATE1 Expression in Human Asthenozoospermic Semen.
    Manfrevola F, Ferraro B, Sellitto C, Rocco D, Fasano S, Pierantoni R, Chianese R.
    Cells; 2021 Jul 31; 10(8):. PubMed ID: 34440724
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  • 15. The expression characteristics of FAM71D and its association with sperm motility.
    Ma Q, Li Y, Luo M, Guo H, Lin S, Chen J, Du Y, Jiang Z, Gui Y.
    Hum Reprod; 2017 Nov 01; 32(11):2178-2187. PubMed ID: 29025071
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  • 16. Low-expressed testis-specific calcium-binding protein CBP86-IV (CABYR) is observed in idiopathic asthenozoospermia.
    Shen S, Wang J, Liang J, Zhu C.
    World J Urol; 2015 May 01; 33(5):633-8. PubMed ID: 25717016
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  • 17. Promoter targeted bisulfite sequencing reveals DNA methylation profiles associated with low sperm motility in asthenozoospermia.
    Du Y, Li M, Chen J, Duan Y, Wang X, Qiu Y, Cai Z, Gui Y, Jiang H.
    Hum Reprod; 2016 Jan 01; 31(1):24-33. PubMed ID: 26628640
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  • 18. Human sperm motility: a molecular study of mitochondrial DNA, mitochondrial transcription factor A gene and DNA fragmentation.
    Faja F, Carlini T, Coltrinari G, Finocchi F, Nespoli M, Pallotti F, Lenzi A, Lombardo F, Paoli D.
    Mol Biol Rep; 2019 Aug 01; 46(4):4113-4121. PubMed ID: 31089917
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  • 19. Chloride channels are involved in sperm motility and are downregulated in spermatozoa from patients with asthenozoospermia.
    Liu SW, Li Y, Zou LL, Guan YT, Peng S, Zheng LX, Deng SM, Zhu LY, Wang LW, Chen LX.
    Asian J Androl; 2017 Aug 01; 19(4):418-424. PubMed ID: 27270342
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  • 20. Angiotensin II type 2 receptor is expressed in human sperm cells and is involved in sperm motility.
    Gianzo M, Muñoa-Hoyos I, Urizar-Arenaza I, Larreategui Z, Quintana F, Garrido N, Subirán N, Irazusta J.
    Fertil Steril; 2016 Mar 01; 105(3):608-616. PubMed ID: 26616438
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