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Author Title Journal Volume Pages Year Related resources
Honoo Satake, Yasunori Sasakura. The neuroendocrine system of Ciona intestinalis Type A, a deuterostome invertebrate and the closest relative of vertebrates. Mol Cell Endocrinol 2023 Tg[MiCiTHK]2
Tg[MiCiVACHTC]2
Tg[MiCiVGLUT4.3K]2
Tg[MiCignrh1K]2
Nicholas Treen, Shohei Konishi, Hiroki Nishida, Takeshi A Onuma, Yasunori Sasakura. Zic-r.b controls cell numbers in Ciona embryos by activating CDKN1B. Dev Biol 2023 pSPeGFP
pBS-HTB
pNut>H2B::eCFP (pNut>eCFP:H2B)
Nozomu M Totsuka, Satoshi Kuwana, Satoshi Sawai, Kotaro Oka, Yasunori Sasakura, Kohji Hotta. Distribution changes of non-self-test cells and self-tunic cells surrounding the outer body during Ciona metamorphosis. Dev Dyn 252(11) 1363-1374 2023 Tg[MiCiAKRK]1
pSPCiAKRK
Taiga Kijima, Daisuke Kurokawa, Yasunori Sasakura, Michio Ogasawara, Satoe Aratake, Kaoru Yoshida, Manabu Yoshida. CatSper mediates not only chemotactic behavior but also the motility of ascidian sperm. Front Cell Dev Biol 2023
Yasunori Sasakura, Takeo Horie. Improved Genome Editing in the Ascidian Ciona with CRISPR/Cas9 and TALEN. Methods Mol Biol 2023
Chacha PP, Horie R, Kusakabe TG, Sasakura Y, Singh M, Horie T, Levine M. Neuronal identities derived by misexpression of the POU IV sensory determinant in a protovertebrate. Proc Natl Acad Sci U S A 119(4) 2022 Tg[MiCiPC2K]3
Tg[MiCiPC2K]2
pSPCiPOUIVcDNA
pSPCiCesACiPOUIVcDNA
pfogbasalKaede (atg+)
Krasovec G, Hozumi A, Yoshida T, Obita T, Hamada M, Shiraishi A, Satake H, Horie T, Mori H, Sasakura Y. d-Serine controls epidermal vesicle release via NMDA receptor, allowing tissue migration during the metamorphosis of the chordate Ciona. Sci Adv 8(10) eabn3264 2022 pSPCiCesAG(pCesA(-2080)-GFP)
pEF1a>TALEN-NG::2A::mCherry
pEF1a>TALEN-HD::2A::mCherry
pHTB-TALEN-NG::2A::mCherry
pHTB-TALEN-HD::2A::mCherry
pBSCi-SRR3
pBSCiGluN1
pBSCiGluN2
pSPTnI>mCherry::2A::Sar1
pSPBra>mCherry::2A::dnSar1
pSPCesA>mCherry::2A::dnSar1
pSPTitf1>mCherry::2A::dnSar1
pSPTnI>mCherry::2A::dnSar1
pET21aCi-SRR3
pEF1a>SRR3 TALEN L::2A::mCherry
pEF1a>SRR3 TALEN R::2A::mCherry
pHTB-SRR3 TALEN L::2A::mCherry
pHTB-SRR3 TALEN R::2A::mCherry
Sakamoto A, Hozumi A, Shiraishi A, Satake H, Horie T, Sasakura Y. The TRP channel PKD2 is involved in sensing the mechanical stimulus of adhesion for initiating metamorphosis in the chordate Ciona. Dev Growth Differ 64(7) 395-408 2022 Tg[MiCiPC2K]3
Tg[MiCiPC2K]2
pEF1a>TALEN-NG::2A::mCherry
pHTB-TALEN-NG::2A::mCherry
Yamagishi M, Huang T, Hozumi A, Onuma TA, Sasakura Y, Ogasawara M. Differentiation of endostyle cells by Nkx2-1 and FoxE in the ascidian Ciona intestinalis type A: insights into shared gene regulation in glandular- and thyroid-equivalent elements of the chordate endostyle. Cell Tissue Res 390(2) 189-205 2022 pEF1a>TALEN-NG::2A::mCherry
pHTB-TALEN-NG::2A::mCherry
Yamakawa S, Hayashi Y, Kako K, Sasakura Y, Morino Y, Wada H. Mechanism underlying retinoic acid-dependent metamorphosis in the starfish. Dev Biol 492() 119-125 2022 pHTB-TALEN-NG::2A::mCherry
Kawada T, Shiraishi A, Matsubara S, Hozumi A, Horie T, Sasakura Y, Satake H. Vasopressin Promoter Transgenic and Vasopressin Gene-Edited Ascidian, Ciona intestinalis Type A (Ciona robusta): Innervation, Gene Expression Profiles, and Phenotypes. Front Endocrinol (Lausanne) 12() 668564 2021 Tg[MiCiVPV]1
VPTAL2
VPTAL3
pEF1>VP TALEN L1
pEF1>VP TALEN R1
pTnI>VP TALEN L1
pTnI>VP TALEN R1
pMiDestF-CiVP 5'- UTR-Venus
pSP-CiVP 5'-UTR-Venus
pSPVenus
Yamazaki A, Yamakawa S, Morino Y, Sasakura Y, Wada H. Gene regulation of adult skeletogenesis in starfish and modifications during gene network co-option. Sci Rep 11(1) 20111 2021
Bostwick M, Smith EL, Borba C, Newman-Smith E, Guleria I, Kourakis MJ, Smith WC. Antagonistic Inhibitory Circuits Integrate Visual and Gravitactic Behaviors. Curr Biol 30(4) 600-609.e2 2020
Hozumi A, Matsunobu S, Mita K, Treen N, Sugihara T, Horie T, Sakuma T, Yamamoto T, Shiraishi A, Hamada M, Satoh N, Sakurai K, Satake H, Sasakura Y. GABA-Induced GnRH Release Triggers Chordate Metamorphosis. Curr Biol 30(8) 1555-1561.e4 2020 tail regression failed
gnrh1>Kaede
gnrh2>Kaede
GABABR2>H2B::mCherry
pEF1>GABABR1 TALEN L1
pEF1>GABABR1 TALEN R1
pEF1>GABAARα TALEN L1
pEF1>GABAARα TALEN R1
pEF1>GABAARβ TALEN L1
pEF1>GABAARβ TALEN R1
pEF1>PC2 TALEN L1
pEF1>PC2 TALEN R1
pEF1>gnrh2 TALEN L1
pEF1>gnrh2 TALEN R1
pEF1>gnrh1 TALEN L1
pEF1>gnrh1 TALEN R1
pEF1>gnrh1 TALEN L2
pEF1>gnrh1 TALEN R2
pEF1>gnrh1 TALEN L3
pEF1>gnrh1 TALEN R3
pHTB>GABABR1 TALEN L1
pHTB>GABABR1 TALEN R1
pHTB>GABAARα TALEN L1
pHTB>GABAARα TALEN R1
pHTB>GABAARβ TALEN L1
pHTB>GABAARβ TALEN R1
pHTB>PC2 TALEN L1
pHTB>PC2 TALEN R1
pHTB>gnrh2 TALEN L1
pHTB>gnrh2 TALEN R1
pHTB>gnrh1 TALEN L1
pHTB>gnrh1 TALEN R1
pHTB>gnrh1 TALEN L2
pHTB>gnrh1 TALEN R2
pHTB>gnrh1 TALEN L3
pHTB>gnrh1 TALEN R3
Osugi T, Sasakura Y, Satake H. The ventral peptidergic system of the adult ascidian Ciona robusta (Ciona intestinalis Type A) insights from a transgenic animal model. Sci Rep 10(1) 1892 2020 Tg[MiCiPC2K]3
Tg[MiCiPC2K]2
Tajima Y, Hozumi A, Yoshida K, Treen N, Sakuma T, Yamamoto T, Sasakura Y. Hox13 is essential for formation of a sensory organ at the terminal end of the sperm duct in Ciona. Dev. Biol. 458(1) 120-131 2020 Tg[MiCiHox13K]1
Tg[MiCiHox13K]2
pMiCiHox13>Kaede (+intron)
pSPCiHox13>Kaede (Hox13>Kaede, +intron)
pSPNut>mCherry::2A::MiTP
pSPTnI>mCherry::2A::MiTP
pEF1>Hox13 TALEN L1
pEF1>Hox13 TALEN R1
pEF1>Hox13 TALEN HD3L
pEF1>Hox13 TALEN HD3R
pMesp>TALEN-NG::2A::mCherry (pBSMesp>Hox13TALEN::2A::mCherry)
pTitf1>Hox13 TALEN L1
pTitf1>Hox13 TALEN R1
pAKR>Hox13 TALEN L1
pAKR>Hox13 TALEN R1
pCesA>Hox13 TALEN L1
pCesA>Hox13 TALEN R1
pNut>Hox13 TALEN L1
pNut>Hox13 TALEN R1
pTnI>Hox13 TALEN L1
pTnI>Hox13 TALEN R1
pMesp>Hox13 TALEN L1
pMesp>Hox13 TALEN R1
pBSCi-Hox13
pBSCs-Hox13
pBSCi-PC2
pBSCs-PC2
pBSCs-EF1α
pNut>Hox13 TALEN HD3L
pNut>Hox13 TALEN HD3R
pHTBHox13 TALEN L1
pHTBHox13 TALEN R1
pHTBHox13 TALEN HD3L
pHTBHox13 TALEN HD3R
Yamaji S, Hozumi A, Matsunobu S, Sasakura Y. Orchestration of the distinct morphogenetic movements in different tissues drives tail regression during ascidian metamorphosis. Dev Biol 465(1) 66-78 2020 pEF1a>ROCK TALEN L
pEF1a>ROCK TALEN R
pFOG>ROCK TALEN L
pFOG>ROCK TALEN R
pSPCiCesAnKaede
pSPCiCesAVCAAX
pSPCiCesAnKaede;CiCesAVCAAX
pMiCiCesAnKaede;CiCesAVCAAX
Cao C, Lemaire LA, Wang W, Yoon PH, Choi YA, Parsons LR, Matese JC, Wang W, Levine M, Chen K. Comprehensive single-cell transcriptome lineages of a proto-vertebrate. Nature 571(7765) 349-354 2019
Horie R, Hazbun A, Chen K, Cao C, Levine M, Horie T. Shared evolutionary origin of vertebrate neural crest and cranial placodes. Nature 560(7717) 228-232 2018
Horie T, Horie R, Chen K, Cao C, Nakagawa M, Kusakabe TG, Satoh N, Sasakura Y, Levine M. Regulatory cocktail for dopaminergic neurons in a protovertebrate identified by whole-embryo single-cell transcriptomics. Genes Dev. 32(19-20) 1297-1302 2018 Tg[MiCiTHK]2
pSPCiPtf1aCFP
pSPCiTHK
pSPCiβ2tubulinCiPtf1acDNA
pSPCiβ2tubulinCiMeiscDNA
pSPCiPtf1acDNA
pSPCiPtf1a ΔMO
pSPCiMeiscDNA
pSPCiGCYA2K
pSPCiGCYBK
pSPCiGnRHXK
pSPCiNtlBK
pSPCiPDE9aK
pSPPDEdK
pSPLectinK
pSPSS23A3K
pMiCiTHK
Sasakura Y, Hozumi A. Formation of adult organs through metamorphosis in ascidians. Wiley Interdiscip Rev Dev Biol 7(2) 2018 Tg[MiCiAKRK]1
E[MiTSAdTPOG]2
E[MiTSAdTPOG]6
E[MiTSAdTPOG]15
no gill slit(EJ[MiTSAdTPOG]124)
Tg[MiCiVACHTK]5
Tg[MiCiPC2K]3
Tg[MiCiTnIG]3
Tg[MiCiZipCiFkhK]1
Tg[MiCiVGLUT4.3K]2
Tg[MiCiHox12K]1
Hox12TAL2
pMiCiHox12K
pMiCiVGLUT4.3K
Sasakura Y. The Enhancer Trap in Ciona. Adv. Exp. Med. Biol. 1029() 121-129 2018 E[MiTSAdTPOG]2
E[MiTSAdTPOG]15
E[MiTSAdTPOG]19
E[MiTSAdTPOG]24
EJ[MiTSAdTPOG]75
EJ[MiTSAdTPOG]87
Mu[ISMiTSAdTPOG]1
Sasakura Y. Germline Transgenesis in Ciona. Adv. Exp. Med. Biol. 1029() 109-119 2018 swimming juvenile (Tg[MiTFr3dTPOG]45)
Satoh T, Iitsuka T, Shiraishi A, Hozumi A, Satake H, Sasakura Y. piRNA-like small RNAs are responsible for the maternal-specific knockdown in the ascidian Ciona intestinalis Type A. Sci Rep 8(1) 5869 2018 Tg[MiCiNutG]3
Tg[MiCiNutG]4
Tg[MiCiTnIGCipemG]2
Tg[MiCiTnIGCipemG]9
Tg[T2CiFr3dTPORCipemG]3
Tg[Fr3dTPORCipemG]4
Tg[MiFr3dTPORCipemK]5
Tg[MiFr3dTPORCipemwtG]3
Tg[MiFr3dTPORCipemwtG]4
Tg[MiFr3dTPORCipemwtG]6
Tg[MiCiTnIGCipemG]1
Yoshida K, Treen N. TALEN-Based Knockout System. Adv. Exp. Med. Biol. 1029() 131-139 2018 pFOG>CesA TALEN L1
pFOG>CesA TALEN R1
pHTB-CesA TALEN L1
pHTB-CesA TALEN R1
pEF1>CesA TALEN L1
pEF1>CesA TALEN R1
Osugi T, Sasakura Y, Satake H. The nervous system of the adult ascidian Ciona intestinalis Type A (Ciona robusta): Insights from transgenic animal models. PLoS ONE 12(6) e0180227 2017 Tg[MiCiPC2K]3
Tg[MiCiPC2K]2
Yoshida K, Hozumi A, Treen N, Sakuma T, Yamamoto T, Shirae-Kurabayashi M, Sasakura Y. Germ cell regeneration-mediated, enhanced mutagenesis in the ascidian Ciona intestinalis reveals flexible germ cell formation from different somatic cells. Dev. Biol. 423 111-125 2017 Tg[MiCiTnIG]2
Tg[MiCiNutG]3
EJ[MiTSAdTPOG]75
EJ[MiTSAdTPOG]87
EJ[MiTSAdTPOG]101
Tg[MiCiTnIG]3
Hox12TAL2
pSPCiVACHTC
pEF1a>TALEN-NG::2A::mCherry
pAKR>TALEN-NG::2A::mCherry
pCesA>TALEN-NG::2A::mCherry
pEpiI>TALEN-NG::2A::mCherry
pNut>TALEN-NG::2A::mCherry
pTnI>TALEN-NG::2A::mCherry
pBSCiEpiImCherryCiTiTF1CiHox12 TALEN L
pBSCiEpiImCherryCiTiTF1CiHox12 TALEN R
pHTBHox12 TALEN L
pHTBHox12 TALEN R
pCesA>Hox4 TALEN L
pCesA>Hox4 TALEN R
pNut>Hox4 TALEN L
pNut>Hox4 TALEN R
pTnI>Hox4 TALEN L
pTnI>Hox4 TALEN R
pEF1>Hox4 TALEN L::2A::mCherry
pEF1>Hox4 TALEN R::2A::mCherry
Yoshida K, Nakahata A, Treen N, Sakuma T, Yamamoto T, Sasakura Y. Hox-mediated endodermal identity patterns pharyngeal muscle formation in the chordate pharynx. Development 144 1629-1634 2017 no gill slit(EJ[MiTSAdTPOG]124)
pTiTF1>TALEN-NG::2A::mCherry
pEF1>Hox1 TALEN-L
pEF1>Hox1 TALEN-R
pEF1>Otx TALEN-L2
pEF1>Otx TALEN-R2
pEF1>RAR TALEN-L
pEF1>RAR TALEN-R
pEF1>Raldh2 TALEN-L
pEF1>Raldh2 TALEN-R
pTitf1>Hox1
pTitf1>Otx
pMhc3>Kaede
pFr3dTPO>TALEN::2A::mCherry
pTitf>Hox1 TALEN-L
pTitf>Hox1 TALEN-R
pTitf>Otx TALEN-L
pTitf>Otx TALEN-R
pTitf>RAR TALEN-L
pTitf>RAR TALEN-R
pTitf>Raldh2 TALEN-L
pTitf>Raldh2 TALEN-R
pTnI>Raldh2 TALEN-L
pTnI>Raldh2 TALEN-R
pFr3dTPO>Hox1 TALEN-L
pFr3dTPO>Hox1 TALEN-R
Ogura Y, Sasakura Y. Developmental Control of Cell-Cycle Compensation Provides a Switch for Patterned Mitosis at the Onset of Chordate Neurulation. Dev Cell. 37(2) 148-61 2016 pSPCicdc25>Kaede
pSPCicdc25:CiFkh>Kaede
pHTB-Ciinte.AP2L2
pHTB-En::Ciinte.GATAa
pRN3-Ciinte.GATAb
pHTB-mVenus::PCNA
pHTB-Lifeact::Venus
pHTB-Ciinte.cdc25
Sasakura Y, Ogura Y, Treen N, Yokomori R, Park SJ, Nakai K, Saiga H, Sakuma T, Yamamoto T, Fujiwara S, Yoshida K. Transcriptional regulation of a horizontally transferred gene from bacterium to chordate. Proc. Biol. Sci. 283(1845) pii: 20161712 2016 pSPCiEpiIG (= Ci-EpiI>GFP)
pSPdTPOG
pHTBCiCesAAP2BSTALEN-L1
pHTBCiCesAAP2BSTALEN-R1
pPDCiCesALacZ (upstream 2162bp)
pPDCsCesALacZ (upstream 1383bp)
pPDCsCesA533LacZ (up533)
pPDCsCesA444LacZ (up444)
pPDCiCesA450LacZ (up450)
pPDCiCesA554LacZ (up554)
Bra>Kaede
Ci-EpiI>LacZ
Ci-EpiI>Ci-AP2L2
pSP-Sgr4704-1(R)CiBrabp-Kaede (+S. griseus)
pSP-Sav5219-3(F)CiBrabp-Kaede (+S. avermi)
pSP-Scab57291-1(R)CiBrabp-Kaede (+S. scabies)
AP2BS+surr(F):Bra>Kaede
AP2BS+surr(R):Bra>Kaede
Ci-Fkh>LacZ
AP2BS+surr(F)+Ci-Fkh>LacZ
AP2BS+surr(R)+Ci-Fkh>LacZ
AP2BSsolo+Ci-Fkh>LacZ
AP2BS+surr(F)+Ci-TPO>GFP
AP2BS+surr(R)+Ci-TPO>GFP
AP2BSsolo+Ci-TPO>GFP
pSP-Sgr4704-1(F)CiFkhminimal-LacZ (+S. griseus)
pSP-Sav5219-3(R)CiFkhminimal-LacZ (+S. avermi)
pSP-Scab57291-1(F)CiFkhminimal-LacZ (+S. scabies)
Hozumi A, Horie T, Sasakura Y. Neuronal map reveals the highly regionalized pattern of the juvenile central nervous system of the ascidian Ciona intestinalis. Dev Dyn. 244(11) 1375-93 2015 Tg[MiCiVACHTK]5
Tg[MiCiβ2TBK]2
Tg[MiCiVGLUTK]5
Tg[MiCiVGLUTK]6
Tg[MiCiVGATK]1
Tg[MiCiVGATK]2
Tg[MiCib2TBC]3
Tg[MiCib2TBC]4
pSPCiβ2tubulin>CFP
pMiCiβ2tubulin>CFP
pSPChR2::YFP
pSPβ2tubulin>ChR2::YFP
pSPVACHT>ChR2::YFP
pSPVACHT>Kaede;VACHT>ChR2::YFP
Kawai N, Ogura Y, Ikuta T, Saiga H, Hamada M, Sakuma T, Yamamoto T, Satoh N, Sasakura Y. Hox10-regulated endodermal cell migration is essential for development of the ascidian intestine. Dev Biol. 403(1) 43-56 2015 EJ[MiTSAdTPOG]107
Tg[MiCiZipCiFkhK]1
pTitf1-eCFP-Hox10
pBra-CFP-Hox10
pTitf1-Kaede
pSP-eCFP-Ci-Hox10
pZip-CFP-Hox10
pZip-VCAAX
pZip-H2B-mcherry
pSP-COL9-1A
pZip-COL9-1A
pHTB-Ci-Hox10sm
pHTB-Ci-Hox10
pEF1>Hox10TALEN-L
pEF1>Hox10TALEN-R
pZip>Hox10TALEN-L
pZip>Hox10TALEN-R
pEF1>MMP-2/9/13TALEN-L
pEF1>MMP-2/9/13TALEN-R
pZip>MMP-2/9/13TALEN-L
pZip>MMP-2/9/13TALEN-R
pBSCiEpiI>mcherry-CiZipCiFkh>TALEN-NG
Iitsuka T, Mita K, Hozumi A, Hamada M, Satoh N, Sasakura Y. Transposon-mediated targeted and specific knockdown of maternally expressed transcripts in the ascidian Ciona intestinalis. Sci Rep 4() 5050 2014 Tg[MiCiNutG]3
Tg[MiCiNutG]4
EJ[MiTSAdTPOG]78
Tg[MiCiTnIGCipemG]2
Tg[MiCiTnIGCipemG]9
Tg[MiCiTnIGCimTG]1
Tg[MiCiTnIGCipemG]1
pMiCiTnIGCipemG
pMiFr3dTPORCipemG
pMiCiTnIGCimTG
pMiCiTnIGCipem(-5'UTR)G
pMiFr3dTPORCipemCiNut(5'UTR)G
pMiCiTnIGCipemK
pRN3CipemFL
Kamiya C, Ohta N, Ogura Y, Yoshida K, Horie T, Kusakabe TG, Satake H, Sasakura Y. Nonreproductive role of gonadotropin-releasing hormone in the control of ascidian metamorphosis. Dev Dyn. 243(12) 1524-35 2014 Ciinte.Tg[pMi-Ciinte.EF1a>mKO2::hCdt1(1/100)]1
Ciinte.Tg[pMi-Ciinte.EF1a>mVeuns::hGem(1/110);Ciinte.EF1a>H2B::CFP]1
pMi-Ciinte.EF1a>mKO2::hCdt1(1/100)
pMi-Ciinte.EF1a>mVenus::hGem(1/110);Ciinte.EF1a>H2B::CFP
Kamiya C, Ohta N, Ogura Y, Yoshida K, Horie T, Kusakabe TG, Satake H, Sasakura Y. Nonreproductive role of gonadotropin-releasing hormone in the control of ascidian metamorphosis. Dev. Dyn. 243(12) 1524-35 2014
Sasaki H, Yoshida K, Hozumi A, Sasakura Y. CRISPR/Cas9-mediated gene knockout in the ascidian Ciona intestinalis. Dev. Growth Differ. 56(7) 499-510 2014 pSPCiEF1a>Cas9
pHTBCas9
pSPU6CiHox3sg3
pSPU6CiHox5sg1
pDR274CiHox3sg1
pDR274CiHox3sg3
pDR274CiHox3sg4
pDR274CiHox3sg5
pDR274CiHox5sg1
pDR274CiHox12sg1
pDR274CiHox12sg2
pDR274CiHox12sg3
Treen N, Yoshida K, Sakuma T, Sasaki H, Kawai N, Yamamoto T, Sasakura Y. Tissue-specific and ubiquitous gene knockouts by TALEN electroporation provide new approaches to investigating gene function in Ciona. Development 141(2) 481-7 2014 pBSCiEpiI>mcherry-CiEF1a>TALEN-NG
pBSCiEpiI>Venus-CiEF1a>TALEN-NG
pBSCiEpiI>mcherry-CiEF1a>TALENCiFGF3L
pBSCiEpiI>Venus-CiEF1a>TALENCiFGF3R
pBSCiEpiI>mcherry-CiEF1a>TALENCiFGF11L
pBSCiEpiI>mcherry-CiEF1a>TALENCiFGF11R
pBSCiEpiI>Venus-CiEF1a>TALENCiFGF11L
pBSCiEpiI>Venus-CiEF1a>TALENCiFGF11R
pBSCiEpiI>mcherry-CiEF1a>TALENCiHox12L
pBSCiEpiI>mcherry-CiEF1a>TALENCiHox12R
pBSCiEpiI>mcherry-CiEpiI>TALENCiFGF11L
pBSCiEpiI>mcherry-CiEpiI>TALENCiFGF11R
pBSCiEpiI>mcherry-CiEpiI>TALENCiHox12L
pBSCiEpiI>mcherry-CiEpiI>TALENCiHox12R
pBSCiEpiI>mcherry-CiNut>TALENCiFGF3L
pBSCiEpiI>mcherry-CiNut>TALENCiFGF3R
pBSCiEpiI>mcherry-CiNut>TALENCiFGF11L
pBSCiEpiI>mcherry-CiNut>TALENCiFGF11R
pBSCiEpiI>mcherry-CiPC2>TALENCiFGF3L
pBSCiEpiI>mcherry-CiPC2>TALENCiFGF3R
pBSCiEpiI>mcherry-CiPC2>TALENCiFGF11L
pBSCiEpiI>mcherry-CiPC2>TALENCiFGF11R
Yokoyama TD, Hotta K, Oka K. Comprehensive morphological analysis of individual peripheral neuron dendritic arbors in ascidian larvae using the photoconvertible protein Kaede. Dev Dyn. 243(10) 1362-73 2014 Tg[MiCiPC2K]3
Tg[MiCiPC2K]2
Yoshida K, Treen N, Hozumi A, Sakuma T, Yamamoto T, Sasakura Y. Germ cell mutations of the ascidian Ciona intestinalis with TALE nucleases. Genesis 52(5) 431-9 2014 pHTB-TAL4
pHTBTALENCiHox4L
pHTBTALENCiHox4R
pHTBTALENCiHox5L
pHTBTALENCiHox5R
Hozumi A, Mita K, Miskey C, Mates L, Izsvak Z, Ivics Z, Satake H, Sasakura Y. Germline transgenesis of the chordate Ciona intestinalis with hyperactive variants of sleeping beauty transposable element. Dev. Dyn. 242(1) 30-43 2013 Tg[MiFr3dTPOCCiPrmSB100x]1
Tg[MiFr3dTPOCCiPrmSB100x]2
Tg[MiFr3dTPOCCiNutSB100x]1
Tg[MiFr3dTPOCCiNutSB100x]2
Tg[T2dTPOG]1
Tg[T2dTPOG]3
pAmpMinosneo
pT2dTPOG
pT2tet
pT2tet(L)
pRN3SB11
pRN3SB100X
pMiFr3dTPOCDestF
pSPeCFP
pSPFr3dTPOC
pMiFr3dTPOC
pMiFr3dTPOCCiNutSB100X
pMiFr3dTPOCCiPrmSB100X
pLMCSeGFP
pLMCSSB100X
pLMCSSB10
pLMCSSB11
pLMCSMiTP
pLCiNutSB100X
pLCiNutSB10
pLCiNutSB11
pLCiNutMiTP
pLCiprmSB100X
Hozumi A, Yoshida R, Horie T, Sakuma T, Yamamoto T, Sasakura Y. Enhancer activity sensitive to the orientation of the gene it regulates in the chordate genome. Dev. Biol. 375(1) 79-91 2013 E[MiTSAdTPOG]15
pSPCiGALNT6r(up6k)K
pSPCiGALNT6r(up3k)K
pSPCiGALNT6r(up2k)K
pSPdTPOG
pSPCiSMPD3down4kdTPOG
pSPCiSMPD3down4k/3'del1kdTPOG
pSPCiSMPD3down4k/3'del2kdTPOG
pSPCiGALNT6r(up6k)mKO2
pSPCiGALNT6r(up6k)mCherry
pSPCiGALNT6r(up6k)MiTSAdTPOG(F)mKO2
pSPCiGALNT6r(up6k)MiTSAdTPOG(R)mKO2
pSPCiGALNT6r(up6k)dTPOG(F)mCherry
pSPCiGALNT6r(up6k)dTPOG(R)mCherry
pSPCiFkhbasalG
pSPCiGALNT6r(up6k)CiFkhGbasal(F)mCherry
pSPCiGALNT6r(up6k)CiFkhGbasal(R)mCherry
pSPEE1175dTPOG
pSPEE1175/5'del215dTPOG
pSPEE1175/3'del695dTPOG
pSPEE1175/3'del938dTPOG
pSPCiGALNT6r(up6k)/EEdel3'695bp/dTPOG(F)mCherry
pSPCiGALNT6r(up6k)/EEdel3'695bp/dTPOG(R)mCherry
pSPCiGALNT6r(up6k)/EEdel3'938bp/dTPOG(F)mCherry
pSPCiGALNT6r(up6k)/EEdel3'938bp/dTPOG(R)mCherry
pSPCiGALNT6r(up6k)/upEEdTPOG(F)mCherry
pSPCiGALNT6r(up6k)/upEEdTPOG(R)mCherry
pSPCiGALNT6r(up6k)5'del934dTPOG(F)mCherry
pSPCiGALNT6r(up6k)5'del934dTPOG(R)mCherry
pSPCiGALNT6r(up6k)5'del1805dTPOG(F)mCherry
pSPCiGALNT6r(up6k)5'del1805dTPOG(R)mCherry
pSPCiGALNT6r(up6k)5'del2035dTPOG(F)mCherry
pSPCiGALNT6r(up6k)5'del2035dTPOG(R)mCherry
pSPCiGALNT6r(up6k)5'del2319dTPOG(F)mCherry
pSPCiGALNT6r(up6k)5'del2319dTPOG(R)mCherry
pSPCiGALNT6r(EEonly)dTPOG(F)mCherry
pSPCiGALNT6r(EEonly)dTPOG(R)mCherry
pSPdTPOG(F)CiGALNT6r(up2k)mCherry
pSPdTPOG(R)CiGALNT6r(up2k)mCherry
pBSOSRE(F)EE(F)
pBSOSRE(F)EE(R)
pBSOSRE(R)EE(F)
pBSOSRE(R)EE(R)
pSPOSRE(F)EE(F)dTPOG(F)CiGALNT6r(up2k)mCherry
pSPOSRE(F)EE(F)dTPOG(R)CiGALNT6r(up2k)mCherry
pSPOSRE(R)EE(R)dTPOG(F)CiGALNT6r(up2k)mCherry
pSPOSRE(R)EE(R)dTPOG(R)CiGALNT6r(up2k)mCherry
pSPOSRE(R)EE(F)dTPOG(F)CiGALNT6r(up2k)mCherry
pSPOSRE(R)EE(F)dTPOG(R)CiGALNT6r(up2k)mCherry
pSPOSRE(F)EE(R)dTPOG(F)CiGALNT6r(up2k)mCherry
pSPOSRE(F)EE(R)dTPOG(R)CiGALNT6r(up2k)mCherry
pSPEE(R)OSRE(R)dTPOG(F)CiGALNT6r(up2k)mCherry
pSPEE(R)OSRE(R)dTPOG(R)CiGALNT6r(up2k)mCherry
pSPmCherry
pSPmKO2
Nakazawa K, Yamazawa T, Moriyama Y, Ogura Y, Kawai N, Sasakura Y, Saiga H. Formation of the digestive tract in Ciona intestinalis includes two distinct morphogenic processes between its anterior and posterior parts. Dev. Dyn. 242(10) 1172-83 2013 Tg[MiCiZipCiFkhK]1
pSPCiZipCifkhK
pMiCiZipCifkhK
Kawai N, Ochiai H, Sakuma T, Yamada L, Sawada H, Yamamoto T, Sasakura Y. Efficient targeted mutagenesis of the chordate Ciona intestinalis genome with zinc-finger nucleases. Dev. Growth Differ. 54(5) 535-45 2012 Tg[MiCiTnIG]2
pHTBEGFPZFN-L
pHTBEGFPZFN-R
Mita K, Kawai N, Rueckert S, Sasakura Y. Large-scale infection of the ascidian Ciona intestinalis by the gregarine Lankesteria ascidiae in an inland culture system. Dis. Aquat. Org. 101(3) 185-95 2012
Nishitsuji K, Horie T, Ichinose A, Sasakura Y, Yasuo H, Kusakabe TG. Cell lineage and cis-regulation for a unique GABAergic/glycinergic neuron type in the larval nerve cord of the ascidian Ciona intestinalis. Dev. Growth Differ. 54(2) 177-86 2012
Razy-Krajka F, Brown ER, Horie T, Callebert J, Sasakura Y, Joly JS, Kusakabe TG, Vernier P. Monoaminergic modulation of photoreception in ascidian: evidence for a proto-hypothalamo-retinal territory. BMC Biol. 10() 45 2012
Sasakura Y, Kanda M, Ikeda T, Horie T, Kawai N, Ogura Y, Yoshida R, Hozumi A, Satoh N, Fujiwara S. Retinoic acid-driven Hox1 is required in the epidermis for forming the otic/atrial placodes during ascidian metamorphosis. Development 139(12) 2156-60 2012 Tg[MiCiTnIG]2
Tg[MiCiEpiIG]3
Tg[MiCiEpiIG]4
Tg[MiCiTnIGCiprmG]2
no gill slit(EJ[MiTSAdTPOG]124)
pRN3CiHox1
pSPeCFP-ter
pSPeCFPCiHox1
pSPCiCesAeCFPCiHox1
pSPCiAKReCFPCiHox1
pSPCiβ2TBeCFPCiHox1
pSPCiTTF1eCFPCiHox1
pBSCiHox1
Sasakura Y, Mita K, Ogura Y, Horie T. Ascidians as excellent chordate models for studying the development of the nervous system during embryogenesis and metamorphosis. Dev. Growth Differ. 54(3) 420-37 2012
Yoshida R, Sasakura Y. Establishment of Enhancer Detection Lines Expressing GFP in the Gut of the Ascidian Ciona intestinalis. Zool. Sci. 29(1) 11-20 2012 E[MiTSAdTPOG]1
EJ[MiTSAdTPOG]36-2
EJ[MiTSAdTPOG]47-2
EJ[MiTSAdTPOG]71
EJ[MiTSAdTPOG]75
EJ[MiTSAdTPOG]87
EJ[MiTSAdTPOG]92
EJ[MiTSAdTPOG]101
EJ[MiTSAdTPOG]107
EJ[MiTSAdTPOG]123
Mu[MiTSAdTPOG]8
Horie T, Shinki R, Ogura Y, Kusakabe TG, Satoh N, Sasakura Y. Ependymal cells of chordate larvae are stem-like cells that form the adult nervous system. Nature 469(7331) 525-8 2011 Tg[MiCiVACHTK]5
Tg[MiCiβ2TBK]2
Tg[MiCiVGATK]1
Tg[MiCiVGATK]2
pSPCiβ2TBK
pSPCiVGLUTK
pSPCiVGATK
pSPCiVACHTK
pSPCiopsin3K
pSPCiCRALBPK
pSPCiotpK
pSPCiPhox2K
pMiCiβ2TBK
pMiCiVGLUTK
pMiCiVGATK
pMiCiVACHTK

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