分離済み変異体

tm1011

Allele Nametm1011
BalanceNot Required
OutCrossNot Accepted
Sequence NameH10E21.3a
Gene Namenhr-80
Worm BaseAllele Name tm1011
Gene Name nhr-80
Sequence H10E21.3a
Phenotype Information from the receiver is posted in the form of a "researcher : phenotype" homozygous viable. Dr. J. Watts & Dr. J. Browse: PLoS Genetics 2, e108 (2006).
Mutation site Please see gene structure to locate the deletion in relation to exon(s) 9565/9566-10011/10012 (446 bp deletion)
ChromosomeI
Putative gene structurecomplement(join(8283..8495, 8570..8721, 9059..9485, 9558..9776, 9906..10177, 10616..10847))
Map position13.22
Balancer
Map position of balancer
Sequence of primersExtFwd:CATCGCAGGCATGATCTCGT,IntFwd:CCCCACTGATATCCGTCTCA,ExtRev:GTATCTACACGGAGGCGCAG,IntRev:GCGGCATCATATCAACAATC
Distributed lab
DepositorDr. S. Mitani/NBRP
References Please submit your publication
Tuckowski AM, Beydoun S, Kitto ES, Bhat A, Howington MB, Sridhar A, Bhandari M, Chambers K, Leiser SF.
fmo-4 promotes longevity and stress resistance via ER to mitochondria calcium regulation in C. elegans.
Elife 2025 13  
[ PubMed ID = 39951337 ] [ RRC reference ]

Hodgkin J, Stroud D, O'Rourke D.
Mutations of nhr-49 affect C. elegans susceptibility to Yersinia biofilms.
MicroPubl Biol 2025 2025  
[ PubMed ID = 39975509 ] [ RRC reference ]

Ruan M, Xu F, Li N, Yu J, Teng F, Tang J, Huang C, Zhu H.
Free long-chain fatty acids trigger early postembryonic development in starved Caenorhabditis elegans by suppressing mTORC1.
PLoS Biol 2024 22(10) e3002841 
[ PubMed ID = 39436954 ] [ RRC reference ]

Murari E, Meadows D, Cuda N, Mangone M.
A comprehensive analysis of 3'UTRs in Caenorhabditis elegans.
Nucleic Acids Res 2024 52(13) 7523-7538 
[ PubMed ID = 38917330 ] [ RRC reference ]

Weng Y, Murphy CT.
Male-specific behavioral and transcriptomic changes in aging C. elegans neurons.
iScience 2024 27(6) 109910 
[ PubMed ID = 38783998 ] [ RRC reference ]

Zhao L, Wu B, Liang S, Min D, Jiang H.
Insight of Silkworm Pupa Oil Regulating Oxidative Stress and Lipid Metabolism in Caenorhabditis elegans.
Foods 2022 11(24)  
[ PubMed ID = 36553826 ] [ RRC reference ]

Casorla-Perez LA, Guennoun R, Cubillas C, Peng B, Kornfeld K, Wang D.
Orsay Virus Infection of Caenorhabditis elegans Is Modulated by Zinc and Dependent on Lipids.
J Virol 2022 96(22) e0121122 
[ PubMed ID = 36342299 ] [ RRC reference ]

Savini M, Folick A, Lee YT, Jin F, Cuevas A, Tillman MC, Duffy JD, Zhao Q, Neve IA, Hu PW, Yu Y, Zhang Q, Ye Y, Mair WB, Wang J, Han L, Ortlund EA, Wang MC.
Lysosome lipid signalling from the periphery to neurons regulates longevity.
Nat Cell Biol 2022 24(6) 906-916 
[ PubMed ID = 35681008 ] [ RRC reference ]

Wan QL, Meng X, Wang C, Dai W, Luo Z, Yin Z, Ju Z, Fu X, Yang J, Ye Q, Zhang ZH, Zhou Q.
Histone H3K4me3 modification is a transgenerational epigenetic signal for lipid metabolism in Caenorhabditis elegans.
Nat Commun 2022 13(1) 768 
[ PubMed ID = 35140229 ] [ RRC reference ]

Tan L, Zheng ZY, Huang L, Jin Z, Li SL, Wu GS, Luo HR.
Flavonol glycoside complanatoside A requires FOXO/DAF-16, NRF2/SKN-1, and HSF-1 to improve stress resistances and extend the life span of Caenorhabditis elegans.
Front Pharmacol 2022 13 931886 
[ PubMed ID = 36071837 ] [ RRC reference ]

Mony VK, Drangowska-Way A, Albert R, Harrison E, Ghaddar A, Horak MK, Ke W, O'Rourke EJ.
Context-specific regulation of lysosomal lipolysis through network-level diverting of transcription factor interactions.
Proc Natl Acad Sci U S A 2021 118(41)  
[ PubMed ID = 34607947 ] [ RRC reference ]

Ow MC, Nichitean AM, Hall SE.
Somatic aging pathways regulate reproductive plasticity in Caenorhabditis elegans.
Elife 2021 10  
[ PubMed ID = 34236316 ] [ RRC reference ]

Pérez-Jiménez MM, Monje-Moreno JM, Brokate-Llanos AM, Venegas-Calerón M, Sánchez-García A, Sansigre P, Valladares A, Esteban-García S, Suárez-Pereira I, Vitorica J, Ríos JJ, Artal-Sanz M, Carrión ÁM, Muñoz MJ.
Steroid hormones sulfatase inactivation extends lifespan and ameliorates age-related diseases.
Nat Commun 2021 12(1) 49 
[ PubMed ID = 33397961 ] [ RRC reference ]

Zeng WY, Tan L, Han C, Zheng ZY, Wu GS, Luo HR, Li SL.
Trigonelline Extends the Lifespan of C. Elegans and Delays the Progression of Age-Related Diseases by Activating AMPK, DAF-16, and HSF-1.
Oxid Med Cell Longev 2021 2021 7656834 
[ PubMed ID = 34616504 ] [ RRC reference ]

Lu M, Tan L, Zhou XG, Yang ZL, Zhu Q, Chen JN, Luo HR, Wu GS.
Secoisolariciresinol Diglucoside Delays the Progression of Aging-Related Diseases and Extends the Lifespan of Caenorhabditis elegans via DAF-16 and HSF-1.
Oxid Med Cell Longev 2020 2020 1293935 
[ PubMed ID = 32733632 ] [ RRC reference ]

Schmeisser S, Li S, Bouchard B, Ruiz M, Des Rosiers C, Roy R.
Muscle-Specific Lipid Hydrolysis Prolongs Lifespan through Global Lipidomic Remodeling.
Cell Rep 2019 29(13) 4540-4552.e8 
[ PubMed ID = 31875559 ] [ RRC reference ]

Goh GYS, Winter JJ, Bhanshali F, Doering KRS, Lai R, Lee K, Veal EA, Taubert S.
NHR-49/HNF4 integrates regulation of fatty acid metabolism with a protective transcriptional response to oxidative stress and fasting.
Aging Cell 2018 17(3) e12743 
[ PubMed ID = 29508513 ] [ RRC reference ]

Ranawade A, Mallick A, Gupta BP.
PRY-1/Axin signaling regulates lipid metabolism in Caenorhabditis elegans.
PLoS One 2018 13(11) e0206540 
[ PubMed ID = 30403720 ] [ RRC reference ]

Lin CJ, Wang MC.
Microbial metabolites regulate host lipid metabolism through NR5A-Hedgehog signalling.
Nat Cell Biol 2017 19(5) 550-557 
[ PubMed ID = 28436966 ] [ RRC reference ]

Han S, Schroeder EA, Silva-García CG, Hebestreit K, Mair WB, Brunet A.
Mono-unsaturated fatty acids link H3K4me3 modifiers to C. elegans lifespan.
Nature 2017 544(7649) 185-190 
[ PubMed ID = 28379943 ] [ RRC reference ]