IVFCPD Courses

This site is under development.

Logon

Use as part of your new staff development program.

Please contact us if you are interested in contributing to IVFCPD
IVFCPD is undergoing a major consolidation-pages may change frequently.

RAC1 and sperm motility+ - Course ID:156 -

Code

SEP248+ [849]

Comment

Access

You need to be registered and subscribed to view these activities.

Primary Topic

248

Date

10/2/2021 - [Last Updated:17/2/2021]

Status

KeyWords

Research ,

Sperm Motility ,

Information

Select for more information on Education modules.

Activity	Date
Created	10/2/2021
Updated	17/2/2021
Enrolled
Last Visit
Last Activity

Contents
0	Activity ID
0	Key Topics
3	Comments
0	Questions
8	References
0	Activity
0	CPD Minutes

References

All

| Order:

Author

Year

Notes relating to this Course.
There are 3 notes collected on this topic but you need to have a current subscription to access them

References related to RAC1 and sperm motility -[8] [Ref=8]
	Amaral A, Herrmann BG (2021) RAC1 controls progressive movement and competitiveness of mammalian spermatozoa. PLoS Genet 17(2): e1009308. https://doi.org/10.1371/journal.pgen.1009308					ID:3142
	Year:2020, DOI:10.1371/journal.pgen.1009308	421	8873	2020	Last edited on 9/2/2021
	Max-Planck-Gesellschaft. "Some sperm cells poison their competitors: A genetic factor helps sperm cells outcompete their peers." ScienceDaily. ScienceDaily, 4 February 2021. http://www.sciencedaily.com/releases/2021/02/210204144021.htm					ID:3143
	Year:2020, DOI:0	0	0	2020	Last edited on 9/2/2021
	Some mouse sperm try to sabotage rivals in race to fertilise the egg. https://www.newscientist.com/article/2266842-some-mouse-sperm-try-to-sabotage-rivals-in-race-to-fertilise-the-egg/#ixzz6lydATAEN					ID:3144
	Year:2020, DOI:0	0	0	2020	Last edited on 9/2/2021
	Amaral A, Paiva C, Attardo Parrinello C, Estanyol JM, Ballescà JL, Ramalho-Santos J, Oliva R. Identification of proteins involved in human sperm motility using high-throughput differential proteomics. J Proteome Res. 2014 Dec 5,13(12):5670-84. doi: 10.1021/pr500652y					ID:3145
	Year:2014, DOI:10.1021/pr500652y	0	0	2014	Last edited on 10/2/2021
	Parte PP, Rao P, Redij S, Lobo V, D'Souza SJ, Gajbhiye R, Kulkarni V. Sperm phosphoproteome profiling by ultra performance liquid chromatography followed by data independent analysis (LC-MS(E)) reveals altered proteomic signatures in asthenozoospermia. J Proteomics. 2012 Oct 22,75(18):5861-71. doi: 10.1016/j.jprot.2012.07.003					ID:3146
	Year:2012, DOI:10.1016/j.jprot.2012.07.003	0	0	2012	Last edited on 10/2/2021
	Ventelä S, Toppari J, Parvinen M. Intercellular organelle traffic through cytoplasmic bridges in early spermatids of the rat: mechanisms of haploid gene product sharing. Mol Biol Cell. 2003 Jul,14(7):2768-80. doi: 10.1091/mbc.e02-10-0647					ID:3161
	Year:2003, DOI:10.1091/mbc.e02-10-0647	422	0	2003	Last edited on 17/2/2021
	Véron N, Bauer H, Weisse AY, Lüder G, Werber M, Herrmann BG. Retention of gene products in syncytial spermatids promotes non-Mendelian inheritance as revealed by the t complex responder. Genes Dev. 2009 Dec 1,23(23):2705-10. doi: 10.1101/gad.553009					ID:3162
	Year:2009, DOI:10.1101/gad.553009	0	0	2009	Last edited on 17/2/2021
	Bhutani K, Stansifer K, Ticau S, Bojic L, Villani AC, Slisz J, Cremers CM, Roy C, Donovan J, Fiske B, Friedman RC. Widespread haploid-biased gene expression enables sperm-level natural selection. Science. 2021 Jan 14:eabb1723. doi: 10.1126/science.abb1723					ID:3163
	Year:2021, DOI:10.1126/science.abb1723	423	0	2021	Last edited on 17/2/2021

Copyright IVFCPD Pty Ltd
Contact IVFCPD	Contact IVFCPD at Office@ivfcpd.com