Cre-driver Rats - UTokyo NBRP-Rat

Temporal and Spatial Control of Gene Expression in vivo

Cre-driver rats enable tissue- and time-specific gene expression control through the Cre-loxP system, contributing to a wide range of research fields. In addition to the stable provision of such Cre-driver rat strains, NBRP-Rat is actively developing foundational technology to improve its quality. Alongside, NBRP-Rat also involves comprehensive and localized analyses of Cre expression and functional evaluations for behavioral abnormalities. These results are compiled into the database as strain information to support stretched research.

Representative of Cre-driver Rats

We are generating new Cre-driver rat strains in response to researchers' needs as we build a comprehensive Cre-driver rat library.

NBRP-Rat No.	Strains	Expression Sites	Tg or KI	Papers	Cre-expression Analysis＊	Cre-expression Analysis using AAV＊	Brain functional Analysis＊	Affiliation	Principal Investigator	Preservation	Remarks
0283	W-Tg(CAG-cre)81Jmsk	Whole body（High expression in skeletal muscle）	Tg	Uchimura Y, 2024. Miyasaka Y, 2018. Fukamachi K, 2013. Sato Y, 2004.			Hot plate test, PPI, Open field test, Fear conditioning, MRI	The Center for Molecular Pathogenesis and Therapeutics, Jichi Medical University	Eiji Kobayashi	Embryo, Sperm, Living organism
0778	W-Tg(HCRT-cre,-EGFP)B5Ahky	Brain（Orexin neurons）	Tg	Dergacheva O, 2016.				Nagoya University	Akihiro Yamanaka	Sperm
0839	W-Tg(Slc32a1-cre)3_5Fusa	Brain（VGAT-positive neurons）	Tg	Soma S, 2019. Sugimoto M, 2021.				Jikei University School of Medicine	Fusao Kato	Sperm	Previously provided
0843	LE-Tg(Drd2-cre)487-3Koba	Brain	Tg	Nonomura S, 2018.				Fukushima Medical University School of Medicine	Kazuto Kobayashi	Sperm
0853	LE-Tg(Pvalb-cre)2-28Koba	Brain（GABAergic interneurons）	Tg	Oh YM, 2017.				Fukushima Medical University School of Medicine	Kazuto Kobayashi	Sperm, Living organism
0856	W-Tg(Dbh-tTA,-cre)2_7Fusa	Brain（Dopamine β-hydroxylase-positive neurons）	Tg					Jikei University School of Medicine	Fusao Kato	Sperm	Previously provided
0875	W-Tg(Slc32a1-cre)1_4Fusa	Brain（VGAT-positive neurons）	Tg	Soma S, 2019.				Jikei University School of Medicine	Fusao Kato	Sperm
0876	W-Tg(Slc32a1-cre)2_5Fusa	Brain（VGAT-positive neurons）	Tg	Soma S, 2019.				Jikei University School of Medicine	Fusao Kato	Sperm
0877	W-Tg(Slc32a1-cre)5_9Fusa	Brain（VGAT-positive neurons）	Tg	Soma S, 2019.				Jikei University School of Medicine	Fusao Kato	Sperm
0878	W-Tg(Dbh-tTA,-cre)5_4Fusa	Brain（Dopamine β-hydroxylase-positive neurons）	Tg					Jikei University School of Medicine	Fusao Kato	Sperm
0879	W-Tg(Dbh-tTA,-cre)5_9Fusa	Brain（Dopamine β-hydroxylase-positive neurons）	Tg					Jikei University School of Medicine	Fusao Kato	Sperm
0893	LE-Tg(Tac1-cre)6-7Koba	Brain（Striatum-projecting neurons）	Tg	Nonomura S, 2018.				Fukushima Medical University School of Medicine	Kazuto Kobayashi	Sperm
0900	LE-Tg(Tac1-cre)4-1Koba	Brain（Striatum-projecting neurons）	Tg	Nonomura S, 2018.		Striatal D1 neurons		Fukushima Medical University School of Medicine	Kazuto Kobayashi	Sperm, Living organism	Continuous record of provision
0908	LE-Tg(Pdyn-cre)2-9Koba	Brain（Dynorphin neurons）	Tg					Fukushima Medical University School of Medicine	Kazuto Kobayashi	Sperm
0931	LE-Pvalb^{em2(T2A-cre)Koba}	Brain（GABAergic interneurons）	KI	Yoshimi K, 2021. Matsushita N, 2023.		Expressed only in interneurons, striatum, and PV neurons	Hot plate test, PPI, Open field test, Fear conditioning, MRI	Fukushima Medical University School of Medicine	Kazuto Kobayashi	Sperm
0976	LE-Tg(Drd2-cre)490-9Koba	Brain	Tg	Nonomura S, 2018.		Striatal D2 neurons		Fukushima Medical University School of Medicine	Kazuto Kobayashi	Sperm	Continuous record of provision
0982	LE-Sst^em1(cre)Bfdi	Brain	KI			Expressed in non-Sst cells in the cerebral cortex and hippocampus		Hyogo Medical University	Cui Yilong	Sperm
0991	LE-Th^em1(cre)Koba	Brain	KI					Fukushima Medical University School of Medicine	Kazuto Kobayashi	Sperm	ssODN knock-in and plasmid DNA insertion
0992	LE-Th^{em2-1(cre)Koba}	Brain	KI	Yoshimi K, 2021. Matsushita N, 2022.		Striatal D1 neurons	Hot plate test, PPI, Open field test, Fear conditioning, MRI	Fukushima Medical University School of Medicine	Kazuto Kobayashi	Sperm	Single nucleotide insertion (T); continuous record of provision
0993	LE-Th^{em2-2(cre)Koba}	Brain	KI	Yoshimi K, 2021. Matsushita N, 2022.		Olfactory bulb, midbrain, and corpus callosum	Hot plate test, PPI, Open field test, Fear conditioning, MRI	Fukushima Medical University School of Medicine	Kazuto Kobayashi	Sperm	Single nucleotide insertion (A)
0994	F344-Alb^em4(cre)Larc	Liver	KI	Ishida S, 2025.	Liver			Tohoku University	Masayuki Yamamoto	Sperm, Living organism
0997	F344-Rosa26^{em10(Alb-cre)Larc}	Whole body	KI	Ishida S, 2025.	Liver（Systemic leak）			Tohoku University	Masayuki Yamamoto	Sperm
0998	LE-Calcb^{em1(cre)Lphmc}	Brain	KI					Hyogo Medical University	Hirosato Kanda	Sperm
0999	W-Gpr65^em2(cre)Larc	Brain	KI					The National Institute of Advanced Industrial Science and Technology	Tomokazu Tsurugizawa	Embryo, Sperm
1000	SD-Tg(Thy1-cre)18Larc	Brain（Cerebral cortical neurons）	Tg		Brain（Cerebral cortical neurons）			The University of Tokyo	Tomoji Mashimo	Sperm, Living organism
1007	LE-Adora2a^em8(cre)Larc	Brain	KI					Shiga University of Medical Science	Satoshi Nonomura	Sperm, Living organism
1010	F344-Rosa26^{em5(EF1A-cre)Larc}	Whole body	KI					The University of Tokyo	Tomoji Mashimo	Sperm, Living organism
1012	F344-Rosa26^{em20(Alb-cre)Larc}	Liver	KI	Ishida S, 2025.	Liver			Tohoku University	Masayuki Yamamoto	Sperm, Living organism
1014	LE-Tg(Tac1-cre)3-2Koba	Brain（Striatum-projecting neurons）	Tg	Nonomura S, 2018.				Fukushima Medical University School of Medicine	Kazuto Kobayashi	Sperm
1038	F344-Rosa26^{em5(CAG-cre)Larc}	Whole body	KI					The University of Tokyo	Tomoji Mashimo	Living organism
1039	F344-Rosa26^{em2(CAG-cre/ERT2)Larc}	Whole body	KI					The University of Tokyo	Tomoji Mashimo	Living organism
1040	F344.SD-Tg(Thy1-cre)18Larc	Brain（Cerebral cortical neurons）	Tg					The University of Tokyo	Tomoji Mashimo	Living organism

Representative of Reporter Rat

NBRP-Rat No.	Strain	Expression Sites	Tg or KI	Pappers	Cre-expression Analysis＊	Cre-expression Analysis using AAV＊	Brain functional Analysis＊	Affiliation	Principal Investigator	Preservation	Remarks
1008	F344-Rosa26^{em11(CAG-EGFP,-mCherry)Larc}	Whole body	KI	Ishida S, 2025.				The University of Tokyo	Tomoji Mashimo	Sperm

Application Examples

List of Publications

Diverse expression pattern of Cre recombinase in Alb-Cre driver rats.＊NEW＊
Ishida S, Taguchi K, Iida R, Hattori K, Taketsuru H, Yoshimi K, Yamamoto M, Mashimo T.
Exp Anim. 2025 Jan 22. doi: 10.1538/expanim.24-0174.

Knockout of the orphan membrane transporter Slc22a23 leads to a learn and hyperactive phenotype with a small hippocampal volume. 　　　　　　　Uchimura Y, Hino K, Hattori K, Kudo Y, Owada A, Kimura T, Sugawara L, Kume S, Bellier JP, Yanagisawa D, Shiino A, Nakayama T, Daigo Y, Mashimo T, Udagawa J.
PLoS One. 2024 Aug 28;19(8):e0309461.

Protocol for highly selective transgene expression through the flip-excision switch system by using a unilateral spacer sequence in rodents. 　　　　　　　Matsushita N, Kato S, Nishizawa K, Sugawara M, Takeuchi K, Miyasaka Y, Mashimo T, Kobayashi K.
STAR Protoc. 2023 Dec 15;4(4):102667. doi: 10.1016/j.xpro.2023.102667. Epub 2023 Oct 31.

Catecholaminergic cell type-specific expression of Cre recombinase in knock-in transgenic rats generated by the Combi-CRISPR technology.
Matsushita N, Nishizawa K, Kato S, Iguchi Y, Fukabori R, Takeuchi K, Miyasaka Y, Mashimo T, Kobayashi K.
J Neurosci Methods. 2022 Nov 1;381:109707. doi: 10.1016/j.jneumeth.2022.109707. Epub 2022 Sep 9.

Active role of the central amygdala in widespread mechanical sensitization in rats with facial inflammatory pain.
Sugimoto M, Takahashi Y, Sugimura YK, Tokunaga R, Yajima M, Kato F.
Pain. 2021 Aug 1;162(8):2273-2286. doi: 10.1097/j.pain.0000000000002224.

Combi-CRISPR: combination of NHEJ and HDR provides efficient and precise plasmid-based knock-ins in mice and rats.
Yoshimi K, Oka Y, Miyasaka Y, Kotani Y, Yasumura M, Uno Y, Hattori K, Tanigawa A, Sato M, Oya M, Nakamura K, Matsushita N, Kobayashi K, Mashimo T.
Hum Genet. 2021 Feb;140(2):277-287. doi: 10.1007/s00439-020-02198-4.

Ipsilateral-Dominant Control of Limb Movements in Rodent Posterior Parietal Cortex.
Soma S, Yoshida J, Kato S, Takahashi Y, Nonomura S, Sugimura YK, Ríos A, Kawabata M, Kobayashi K, Kato F, Sakai Y, Isomura Y.
J Neurosci. 2019 Jan 16;39(3):485-502.

Monitoring and Updating of Action Selection for Goal-Directed Behavior through the Striatal Direct and Indirect Pathways.
Nonomura S, Nishizawa K, Sakai Y, Kawaguchi Y, Kato S, Uchigashima M, Watanabe M, Yamanaka K, Enomoto K, Chiken S, Sano H, Soma S, Yoshida J, Samejima K, Ogawa M, Kobayashi K, Nambu A, Isomura Y, Kimura M.
Neuron. 2018 Sep 19;99(6):1302-1314.e5. doi: 10.1016/j.neuron.2018.08.002. Epub 2018 Aug 23. PMID: 30146299.

CLICK: one-step generation of conditional knockout mice.
Miyasaka Y, Uno Y, Yoshimi K, Kunihiro Y, Yoshimura T, Tanaka T, Ishikubo H, Hiraoka Y, Takemoto N, Tanaka T, Ooguchi Y, Skehel P, Aida T, Takeda J, Mashimo T.
BMC Genomics. 2018 May 2;19(1):318.

Using a novel PV-Cre rat model to characterize pallidonigral cells and their terminations.
Oh YM, Karube F, Takahashi S, Kobayashi K, Takada M, Uchigashima M, Watanabe M, Nishizawa K, Kobayashi K, Fujiyama F.
Brain Struct Funct. 2017 Jul;222(5), 2359-2378.

Hypoxia and hypercapnia inhibit hypothalamic orexin neurons in rats.
Dergacheva O, Yamanaka A, Schwartz AR, Polotsky VY, Mendelowitz D.
J Neurophysiol. 2016 Nov 1;116(5):2250-2259. doi: 10.1152/jn.00196.2016. Epub 2016.

A novel reporter rat strain that expresses LacZ upon Cre‐mediated recombination.
Fukamachi K, Tanaka H, Sakai Y, Alexander DB, Futakuchi M, Tsuda H, Suzui M.
Genesis. 2013 Apr;51(4):268-274.

Establishment of Cre/LoxP recombination system in transgenic rats.
Sato Y, Endo H, Ajiki T, Hakamata Y, Okada T, Murakami T, Kobayashi E.
Biochem Biophys Res Commun. 2004 9;319(4):1197-1202.