Gene Expression Literature Summary

• Symbol: Nanos2
• Name: nanos C2HC-type zinc finger 2
• ID: MGI:2676627

41 matching records from 41 references.

Summary by Age and Assay: Numbers in the table indicate the number of results matching the search criteria.

Age	E0.5	E1	E3	E7.5	E8.5	E9.5	E11	E11.5	E12.5	E13	E13.5	E14.5	E15	E15.5	E16.5	E17	E17.5	E18.5	E	P
Immunohistochemistry (section)									2		3	4		8	1		2	2		3
In situ RNA (section)									1		2	1
Immunohistochemistry (whole mount)				1	1	1
In situ RNA (whole mount)	1	1	1						1		1	3								1
In situ reporter (knock in)	1										1			1			1	1		2
Western blot									3		4	3		6	2		2	1		1
RT-PCR							1	2	4	1	9	9	1	7	3	1	3	2	1	9

Summary by Gene and Reference: Number indicates the number of results matching the search criteria recorded for each reference.
* Indicates detailed expression data entries available

Nanos2  nanos C2HC-type zinc finger 2   (Synonyms: nos2)
Results	Reference
6*	J:227840 Amadei G, Zander MA, Yang G, Dumelie JG, Vessey JP, Lipshitz HD, Smibert CA, Kaplan DR, Miller FD, A Smaug2-Based Translational Repression Complex Determines the Balance between Precursor Maintenance versus Differentiation during Mammalian Neurogenesis. J Neurosci. 2015 Nov 25;35(47):15666-81
7*	J:158581 Barrios F, Filipponi D, Pellegrini M, Paronetto MP, Di Siena S, Geremia R, Rossi P, De Felici M, Jannini EA, Dolci S, Opposing effects of retinoic acid and FGF9 on Nanos2 expression and meiotic entry of mouse germ cells. J Cell Sci. 2010 Mar 15;123(Pt 6):871-80
1	J:293772 Bird AD, Croft BM, Harada M, Tang L, Zhao L, Ming Z, Bagheri-Fam S, Koopman P, Wang Z, Akita K, Harley VR, Ovotesticular disorders of sex development in FGF9 mouse models of human synostosis syndromes. Hum Mol Genet. 2020 Aug 3;29(13):2148-2161
3*	J:164280 Bowles J, Feng CW, Spiller C, Davidson TL, Jackson A, Koopman P, FGF9 suppresses meiosis and promotes male germ cell fate in mice. Dev Cell. 2010 Sep 14;19(3):440-9
2	J:179634 Chassot AA, Gregoire EP, Lavery R, Taketo MM, de Rooij DG, Adams IR, Chaboissier MC, RSPO1/beta-catenin signaling pathway regulates oogonia differentiation and entry into meiosis in the mouse fetal ovary. PLoS One. 2011;6(10):e25641
1	J:225062 Chen SR, Zheng QS, Zhang Y, Gao F, Liu YX, Disruption of genital ridge development causes aberrant primordial germ cell proliferation but does not affect their directional migration. BMC Biol. 2013;11:22
1	J:167041 Cook MS, Munger SC, Nadeau JH, Capel B, Regulation of male germ cell cycle arrest and differentiation by DND1 is modulated by genetic background. Development. 2011 Jan;138(1):23-32
1	J:172213 Gill ME, Hu YC, Lin Y, Page DC, Licensing of gametogenesis, dependent on RNA binding protein DAZL, as a gateway to sexual differentiation of fetal germ cells. Proc Natl Acad Sci U S A. 2011 May 3;108(18):7443-8
1	J:167078 Gregoire EP, Lavery R, Chassot AA, Akiyama H, Treier M, Behringer RR, Chaboissier MC, Transient development of ovotestes in XX Sox9 transgenic mice. Dev Biol. 2011 Jan 1;349(1):65-77
5	J:165736 Guerquin MJ, Duquenne C, Lahaye JB, Tourpin S, Habert R, Livera G, New testicular mechanisms involved in the prevention of fetal meiotic initiation in mice. Dev Biol. 2010 Oct 15;346(2):320-30
2	J:230563 Kato Y, Katsuki T, Kokubo H, Masuda A, Saga Y, Dazl is a target RNA suppressed by mammalian NANOS2 in sexually differentiating male germ cells. Nat Commun. 2016;7:11272
2*	J:325091 Kong X, Fei Q, Pan C, Jin J, Zheng J, Wu D, Li H, Huang X, LncRNA HOTAIR promotes proliferation and suppresses apoptosis of mouse spermatogonium GC-1 cells by sponging miR-761 to modulate NANOS2 expression. In Vitro Cell Dev Biol Anim. 2022 Apr;58(4):295-306
1	J:175257 Krentz AD, Murphy MW, Sarver AL, Griswold MD, Bardwell VJ, Zarkower D, DMRT1 promotes oogenesis by transcriptional activation of Stra8 in the mammalian fetal ovary. Dev Biol. 2011 Aug 1;356(1):63-70
1	J:213579 Liao HF, Chen WS, Chen YH, Kao TH, Tseng YT, Lee CY, Chiu YC, Lee PL, Lin QJ, Ching YH, Hata K, Cheng WT, Tsai MH, Sasaki H, Ho HN, Wu SC, Huang YH, Yen P, Lin SP, DNMT3L promotes quiescence in postnatal spermatogonial progenitor cells. Development. 2014 Jun;141(12):2402-13
1	J:244859 Liu W, Wang F, Xu Q, Shi J, Zhang X, Lu X, Zhao ZA, Gao Z, Ma H, Duan E, Gao F, Gao S, Yi Z, Li L, BCAS2 is involved in alternative mRNA splicing in spermatogonia and the transition to meiosis. Nat Commun. 2017 Jan 27;8:14182
2	J:184928 Miles DC, van den Bergen JA, Wakeling SI, Anderson RB, Sinclair AH, Western PS, The proto-oncogene Ret is required for male foetal germ cell survival. Dev Biol. 2012 May 1;365(1):101-9
3	J:214809 Moniot B, Ujjan S, Champagne J, Hirai H, Aritake K, Nagata K, Dubois E, Nidelet S, Nakamura M, Urade Y, Poulat F, Boizet-Bonhoure B, Prostaglandin D2 acts through the Dp2 receptor to influence male germ cell differentiation in the foetal mouse testis. Development. 2014 Sep;141(18):3561-71
1*	J:328290 Nakagawa T, Jorg DJ, Watanabe H, Mizuno S, Han S, Ikeda T, Omatsu Y, Nishimura K, Fujita M, Takahashi S, Kondoh G, Simons BD, Yoshida S, Nagasawa T, A multistate stem cell dynamics maintains homeostasis in mouse spermatogenesis. Cell Rep. 2021 Oct 19;37(3):109875
1	J:306151 Nguyen DH, Soygur B, Peng SP, Malki S, Hu G, Laird DJ, Apoptosis in the fetal testis eliminates developmentally defective germ cell clones. Nat Cell Biol. 2020 Dec;22(12):1423-1435
7*	J:241573 Pui HP, Saga Y, Gonocytes-to-spermatogonia transition initiates prior to birth in murine testes and it requires FGF signaling. Mech Dev. 2017 Apr;144(Pt B):125-139
3*	J:258304 Pui HP, Saga Y, NANOS2 acts as an intrinsic regulator of gonocytes-to-spermatogonia transition in the murine testes. Mech Dev. 2018 Feb;149:27-40
6*	J:209131 Saba R, Wu Q, Saga Y, CYP26B1 promotes male germ cell differentiation by suppressing STRA8-dependent meiotic and STRA8-independent mitotic pathways. Dev Biol. 2014 May 15;389(2):173-81
1	J:333802 Singh N, Singh D, Bhide A, Sharma R, Bhowmick S, Patel V, Modi D, LHX2 in germ cells control tubular organization in the developing mouse testis. Exp Cell Res. 2023 Feb 14;425(1):113511
1	J:306228 Song HW, Dann CT, McCarrey JR, Meistrich ML, Cornwall GA, Wilkinson MF, Dynamic expression pattern and subcellular localization of the Rhox10 homeobox transcription factor during early germ cell development. Reproduction. 2012 May;143(5):611-24
1*	J:189072 Spiller CM, Feng CW, Jackson A, Gillis AJ, Rolland AD, Looijenga LH, Koopman P, Bowles J, Endogenous Nodal signaling regulates germ cell potency during mammalian testis development. Development. 2012 Nov;139(22):4123-32
8	J:157579 Suzuki A, Igarashi K, Aisaki K, Kanno J, Saga Y, NANOS2 interacts with the CCR4-NOT deadenylation complex and leads to suppression of specific RNAs. Proc Natl Acad Sci U S A. 2010 Feb 23;107(8):3594-9
4	J:217384 Suzuki A, Niimi Y, Saga Y, Interaction of NANOS2 and NANOS3 with different components of the CNOT complex may contribute to the functional differences in mouse male germ cells. Biol Open. 2014;3(12):1207-16
8	J:230058 Suzuki A, Niimi Y, Shinmyozu K, Zhou Z, Kiso M, Saga Y, Dead end1 is an essential partner of NANOS2 for selective binding of target RNAs in male germ cell development. EMBO Rep. 2016 Jan;17(1):37-46
3	J:187029 Suzuki A, Saba R, Miyoshi K, Morita Y, Saga Y, Interaction between NANOS2 and the CCR4-NOT deadenylation complex is essential for male germ cell development in mouse. PLoS One. 2012;7(3):e33558
7*	J:117055 Suzuki A, Tsuda M, Saga Y, Functional redundancy among Nanos proteins and a distinct role of Nanos2 during male germ cell development. Development. 2007 Jan;134(1):77-83
2*	J:154912 Suzuki H, Sada A, Yoshida S, Saga Y, The heterogeneity of spermatogonia is revealed by their topology and expression of marker proteins including the germ cell-specific proteins Nanos2 and Nanos3. Dev Biol. 2009 Dec 15;336(2):222-31
14*	J:119032 Tsuda M, Kiso M, Saga Y, Implication of nanos2-3'UTR in the expression and function of nanos2. Mech Dev. 2006 Jun;123(6):440-9
3	J:86522 Tsuda M, Sasaoka Y, Kiso M, Abe K, Haraguchi S, Kobayashi S, Saga Y, Conserved role of nanos proteins in germ cell development. Science. 2003 Aug 29;301(5637):1239-41
3	J:217603 Vanhoutteghem A, Messiaen S, Herve F, Delhomme B, Moison D, Petit JM, Rouiller-Fabre V, Livera G, Djian P, The zinc-finger protein basonuclin 2 is required for proper mitotic arrest, prevention of premature meiotic initiation and meiotic progression in mouse male germ cells. Development. 2014 Nov;141(22):4298-310
1	J:239679 Vila IK, Yao Y, Kim G, Xia W, Kim H, Kim SJ, Park MK, Hwang JP, Gonzalez-Billalabeitia E, Hung MC, Song SJ, Song MS, A UBE2O-AMPKalpha2 Axis that Promotes Tumor Initiation and Progression Offers Opportunities for Therapy. Cancer Cell. 2017 Feb 13;31(2):208-224
1*	J:122989 Visel A, Thaller C, Eichele G, GenePaint.org: an atlas of gene expression patterns in the mouse embryo. Nucleic Acids Res. 2004 Jan 1;32(Database issue):D552-6
4	J:174956 Western PS, Ralli RA, Wakeling SI, Lo C, van den Bergen JA, Miles DC, Sinclair AH, Mitotic arrest in teratoma susceptible fetal male germ cells. PLoS One. 2011;6(6):e20736
1	J:223223 Wu Q, Fukuda K, Weinstein M, Graff JM, Saga Y, SMAD2 and p38 signaling pathways act in concert to determine XY primordial germ cell fate in mice. Development. 2015 Feb 1;142(3):575-86
1	J:191052 Wu Q, Kanata K, Saba R, Deng CX, Hamada H, Saga Y, Nodal/activin signaling promotes male germ cell fate and suppresses female programming in somatic cells. Development. 2013 Jan;140(2):291-300
1*	J:240405 Zhao L, Arsenault M, Ng ET, Longmuss E, Chau TC, Hartwig S, Koopman P, SOX4 regulates gonad morphogenesis and promotes male germ cell differentiation in mice. Dev Biol. 2017 Mar 01;423(1):46-56
1*	J:220472 Zhao L, Svingen T, Ng ET, Koopman P, Female-to-male sex reversal in mice caused by transgenic overexpression of Dmrt1. Development. 2015 Mar 15;142(6):1083-8