New understandings on folliculogenesis/oogenesis regulation in mouse as revealed by conditional knockout

Journal of Genetics and Genomics = Yi Chuan Xue Bao
Meng-Wen HuQing-Yuan Sun

Abstract

In comparison to conventional knockout technology and in vitro research methods, conditional gene knockout has remarkable advantages. In the past decade, especially during the past five years, conditional knockout approaches have been used to study the regulation of folliculogenesis, follicle growth, oocyte maturation and other major reproductive events. In this review, we summarize the recent findings about folliculogenesis/oogenesis regulation, including the functions of four signaling cascades or glycoprotein domains that have been extensively studied by conditional gene deletion. Several other still fragmented areas of related work are introduced which are awaiting clarification. We have also discussed the future potential of this technology in clarifying gene functions in reproductive biology.

References

Nov 30, 2005·Methods : a Companion to Methods in Enzymology·Xiangdong Xu, Xiang-Dong Fu
Mar 4, 2006·Molecular Endocrinology·Stephanie A PangasMartin M Matzuk
May 15, 2007·The Journal of Physiology·Klaus I Matthaei
Feb 16, 2008·FASEB Journal : Official Publication of the Federation of American Societies for Experimental Biology·Suzannah A Williams, Pamela Stanley
Jul 8, 2008·Developmental Biology·George B JohnDiego H Castrillon
Nov 26, 2008·Reproduction : the Official Journal of the Society for the Study of Fertility·Suzannah A Williams, Pamela Stanley
Mar 3, 2009·Current Biology : CB·Barry E McGuinnessKim Nasmyth
Jun 24, 2009·Genesis : the Journal of Genetics and Development·Shirley S Hammond, Angabin Matin
Oct 6, 2009·Molecular and Cellular Endocrinology·Lei LeiTeresa K Woodruff
Oct 22, 2009·Molecular Human Reproduction·Deepak AdhikariKui Liu
Oct 24, 2009·Sexual Development : Genetics, Molecular Biology, Evolution, Endocrinology, Embryology, and Pathology of Sex Determination and Differentiation·J L PitettiS Nef
Nov 3, 2009·Molecular Endocrinology·Heng-Yu Fan, Joanne S Richards
Nov 6, 2009·Annual Review of Genetics·Kim Nasmyth, Christian H Haering
Nov 26, 2009·Brain Structure & Function·Miguel A Gama SosaGregory A Elder
Apr 8, 2010·FASEB Journal : Official Publication of the Federation of American Societies for Experimental Biology·Alexandre BoyerDerek Boerboom
Sep 16, 2010·Molecular BioSystems·Brett M Hirsch, Weiping Zheng
Dec 3, 2010·Biology of Reproduction·Gillian J GriffithJesse Mager
Jan 21, 2011·Biology of Reproduction·Antti KyrönlahtiDavid B Wilson
May 12, 2011·Development·Khaled HachedKatja Wassmann

❮ Previous
Next ❯

Citations

Feb 17, 2017·Biology of Reproduction·Jacob S RobertsNatalia Toporikova
Jun 6, 2014·Biology of Reproduction·Meng-Wen HuQing-Yuan Sun
Jan 9, 2016·Oncotarget·Zong-Zhe JiangQing-Yuan Sun
Aug 30, 2018·Cell Death and Differentiation·Lin HuangQing-Yuan Sun
Jul 24, 2015·Biomedical Optics Express·Jason C BurtonIrina V Larina
Jun 19, 2019·Cell Death & Disease·Yilong MiaoBo Xiong

❮ Previous
Next ❯

Related Concepts

Related Feeds

AKT Pathway

This feed focuses on the AKT serine/threonine kinase, which is an important signaling pathway involved in processes such as glucose metabolism and cell survival.