Placing human gene families into their evolutionary context
Dornburg A, Mallik R, Wang Z, Bernal M, Thompson B, Bruford E, Nebert D, Vasiliou V, Yohe L, Yoder J, Townsend J. Placing human gene families into their evolutionary context. Human Genomics 2022, 16: 56. PMID: 36369063, PMCID: PMC9652883, DOI: 10.1186/s40246-022-00429-5.Peer-Reviewed Original ResearchConceptsHuman gene familyGene familyHuman genomeEvolutionary contextGene family evolutionNon-model organismsFirst human genomeGenome biologyComparative genomicsFamily evolutionDistant speciesDraft sequenceGenomic studiesGene expressionGenome sequencingSequence complexityGenomeCancer biologyUnprecedented insightsNovel discoveriesCritical roleOrganismsBiologyComparative approachFamilyIdentification of Alternative Polyadenylation in Cyanidioschyzon merolae Through Long-Read Sequencing of mRNA
Schärfen L, Zigackova D, Reimer KA, Stark MR, Slat VA, Francoeur NJ, Wells ML, Zhou L, Blackshear PJ, Neugebauer KM, Rader SD. Identification of Alternative Polyadenylation in Cyanidioschyzon merolae Through Long-Read Sequencing of mRNA. Frontiers In Genetics 2022, 12: 818697. PMID: 35154260, PMCID: PMC8831791, DOI: 10.3389/fgene.2021.818697.Peer-Reviewed Original ResearchAlternative polyadenylationNon-model organismsRNA processing pathwaysLong-read sequencingCyanidioschyzon merolaeSplicing statusSplicing machineryMammalian cellsRegulatory stepMRNA stabilityRed algaVolcanic hot springsGene expressionRich mediumPolyadenylationBiological importanceOrganismsSite usageProtein expressionHot springsYeastAlgaProcessing pathwaysSequencingMRNA
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