2022
Plant mitochondrial FMT and its mammalian homolog CLUH controls development and behavior in Arabidopsis and locomotion in mice
Ralevski A, Apelt F, Olas JJ, Mueller-Roeber B, Rugarli EI, Kragler F, Horvath TL. Plant mitochondrial FMT and its mammalian homolog CLUH controls development and behavior in Arabidopsis and locomotion in mice. Cellular And Molecular Life Sciences 2022, 79: 334. PMID: 35652974, PMCID: PMC11071973, DOI: 10.1007/s00018-022-04382-3.Peer-Reviewed Original ResearchConceptsMitochondrial genesWhole plant morphologySalt stress responseNormal growth conditionsLeaf expansion growthArabidopsis thalianaHigher eukaryotesGene familyMitochondrial proteinsPlant morphologyHomologous functionsMitochondrial morphologyExpansion growthStress responseMitochondrial functionAnimal speciesPlantsSimilar roleGrowth conditionsHeterozygous knockout miceGenesDevelopmental alterationsKnockout miceCLUHArabidopsis
2017
Molecular and cellular reorganization of neural circuits in the human lineage
Sousa AMM, Zhu Y, Raghanti MA, Kitchen RR, Onorati M, Tebbenkamp ATN, Stutz B, Meyer KA, Li M, Kawasawa YI, Liu F, Perez RG, Mele M, Carvalho T, Skarica M, Gulden FO, Pletikos M, Shibata A, Stephenson AR, Edler MK, Ely JJ, Elsworth JD, Horvath TL, Hof PR, Hyde TM, Kleinman JE, Weinberger DR, Reimers M, Lifton RP, Mane SM, Noonan JP, State MW, Lein ES, Knowles JA, Marques-Bonet T, Sherwood CC, Gerstein MB, Sestan N. Molecular and cellular reorganization of neural circuits in the human lineage. Science 2017, 358: 1027-1032. PMID: 29170230, PMCID: PMC5776074, DOI: 10.1126/science.aan3456.Peer-Reviewed Original ResearchConceptsSingle-cell transcriptomic dataDistinct functional categoriesDistinct cell typesBiosynthesis genesTranscriptome sequencingHuman lineageTranscriptomic dataFunctional categoriesCellular reorganizationExpression differencesPhylogenetic reorganizationFunctional analysisCell typesGenesCellular featuresCellular differencesHuman specificityNeural circuitsLineagesMultiple levelsReorganizationSequencingHumansChimpanzeesAdult humans
2016
Reproductive aging is associated with changes in oocyte mitochondrial dynamics, function, and mtDNA quantity
Babayev E, Wang T, Szigeti-Buck K, Lowther K, Taylor HS, Horvath T, Seli E. Reproductive aging is associated with changes in oocyte mitochondrial dynamics, function, and mtDNA quantity. Maturitas 2016, 93: 121-130. PMID: 27523387, PMCID: PMC5064871, DOI: 10.1016/j.maturitas.2016.06.015.Peer-Reviewed Original ResearchConceptsReactive oxygen speciesUnfolded protein response genesProtein response genesMitochondrial DNAMitochondrial dynamicsMitochondrial stressResponse genesMammalian reproductionMitochondria morphologyStressful conditionsMitochondrial changesMitochondriaROS levelsMtDNA levelsElevated expressionMtDNA quantityOxygen speciesOocytesGenesMature oocytesNumerous aspectsExpressionReproductive agingMII oocytesFollicle-enclosed oocytes
2009
STAT3 inhibition of gluconeogenesis is downregulated by SirT1
Nie Y, Erion DM, Yuan Z, Dietrich M, Shulman GI, Horvath TL, Gao Q. STAT3 inhibition of gluconeogenesis is downregulated by SirT1. Nature Cell Biology 2009, 11: 492-500. PMID: 19295512, PMCID: PMC2790597, DOI: 10.1038/ncb1857.Peer-Reviewed Original Research