Project description:Xiphophorus birchmanni Transcriptome or Gene expression

Project description:Xiphophorus birchmanni overview

Project description:Xiphophorus birchmanni Genome sequencing

Project description:Xiphophorus birchmanni and Xiphophorus malinche RNAseq data Raw sequence reads

Project description:Xiphophorus birchmanni strain:wild caught Raw sequence reads

Project description:Hybrids between species contain a mixture of two divergent proteomes, the combination of which may lead to dysfunctional protein-protein interactions. We performed an integrative study on hybrids between the swordtail fishes Xiphophorus malinche and Xiphophorus birchmanni, and found that the combination of X. birchmanni ndufs5 (a nuclear-encoded subunit of mitochondrial Complex I) with X. malinche mtDNA (which codes for multiple Complex I subunits) was lethal. We reasoned that if this lethality was due to dysfunctional protein-protein interactions in Complex I causing improper assembly, then in heterozygotes which possess one functional and one dysfunctional allele, the dysfunctional allele might be more likely to exist in an improperly integrated/folded state, and thus be more likely to be degraded by protein quality control mechanisms. This preferential degradation would be measurable as a bias in the proteome towards the compatible allele of ndufs5, and so we sought to measure the relative abundance of peptides derived from the X. malinche and X. birchmanni alleles of ndufs5 in hybrids heterozygous at ndufs5, with X. malinche ancestry in the mtDNA. Peptides derived from each allele are distinguishable by multiple amino acids, and we used heavy-labeled spike-ins to target multiple ndufs5 peptides from each species in 5 hybrids. We successfully detected one pair of birchmanni/malinche peptides, and compared their relative abundance using peak integration, then compared the ratio to that observed in the heavy-labeled spike-in, for which the true ratio was known. We found that the endogenous peptides were skewed towards the allele from the same species as the mtDNA (X. malinche), consistent with our hypothesis.

Project description:Xiphophorus Transcriptome or Gene expression

Project description:Xiphophorus couchianus Transcriptome or Gene expression

Project description:Xiphophorus gordoni Transcriptome or Gene expression

Project description:Xiphophorus cortezi Transcriptome or Gene expression