Frequent paternal mitochondrial inheritance and rapid haplotype frequency shifts in copepod hybrids

Mapping Intimacies ◽

10.1101/2021.05.10.443310 ◽

2021 ◽

Author(s):

Jeeyun Lee ◽

Christopher S Willett

Keyword(s):

Population Genetics ◽

Mitochondrial Dna ◽

Haplotype Frequency ◽

Total Sample ◽

F1 Hybrids ◽

Hybrid Breakdown ◽

Paternal Leakage ◽

Marine Copepod ◽

Phylogenetic Studies ◽

Genome Wide

Mitochondria are assumed to be maternally inherited in most animal species, and this foundational concept has fostered advances in phylogenetics, conservation, and population genetics. Like other animals, mitochondria were thought to be solely maternally inherited in the marine copepod Tigriopus californicus, which has served as a useful model for studying mitonuclear interactions, hybrid breakdown, and environmental tolerance. However, we present PCR, Sanger sequencing, and Illumina Nextera sequencing evidence that extensive paternal mitochondrial DNA (mtDNA) transmission is occurring in inter-population hybrids of T. californicus. PCR on four types of crosses between three populations (total sample size of 376 F1 individuals) with 20% genome-wide mitochondrial divergence showed 2% to 59% of F1 hybrids with both paternal and maternal mtDNA, where low and high paternal leakage values were found in different cross directions of the same population pairs. Sequencing methods further verified nucleotide similarities between F1 mtDNA and paternal mtDNA sequences. Interestingly, the paternal mtDNA in F1s from some crosses inherited haplotypes that were uncommon in the paternal population. Compared to some previous research on paternal leakage, we employed more rigorous methods to rule out contamination and false detection of paternal mtDNA due to non-functional nuclear mitochondrial DNA fragments. Our results raise the potential that other animal systems thought to only inherit maternal mitochondria may also have paternal leakage, which would then affect the interpretation of past and future population genetics or phylogenetic studies that rely on mitochondria as uniparental markers.

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Stable Species Boundaries Despite Ten Million Years of Hybridization in Tropical Eels

10.1101/635631 ◽

2019 ◽

Author(s):

Julia M. I. Barth ◽

Chrysoula Gubili ◽

Michael Matschiner ◽

Ole K. Tørresen ◽

Shun Watanabe ◽

...

Keyword(s):

Sequence Data ◽

F1 Hybrids ◽

Species Boundaries ◽

Hybrid Breakdown ◽

Genome Wide ◽

Dynamic Scenario ◽

Stable Species ◽

Species Pairs ◽

History Of ◽

Tropical Eels

AbstractGenomic evidence is increasingly underpinning that hybridization between taxa is commonplace, challenging our views on the mechanisms that maintain their boundaries. Here, we focus on seven catadromous eel species (genusAnguilla), and use genome-wide sequence data from more than 450 individuals sampled across the tropical Indo-Pacific, morphological information, and three newly assembled draft genomes to compare contemporary patterns of hybridization with signatures of past gene flow across a time-calibrated phylogeny. We show that the seven species have remained distinct entities for up to 10 million years, despite a dynamic scenario of incomplete isolation whereby the current frequencies of hybridization across species pairs (over 5% of all individuals were either F1 hybrids or backcrosses) contrast remarkably with patterns of past introgression. Based on near-complete asymmetry in the directionality of hybridization and decreasing frequencies of later-generation hybrids, we identify cytonuclear incompatibilities and hybrid breakdown as two powerful mechanisms that can support species cohesion even when hybridization has been pervasive throughout the evolutionary history of entire clades.

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Examining the effect of mitochondrial DNA variants on blood pressure in two Finnish cohorts

Scientific Reports ◽

10.1038/s41598-020-79931-6 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Jaakko Laaksonen ◽

Pashupati P. Mishra ◽

Ilkka Seppälä ◽

Leo-Pekka Lyytikäinen ◽

Emma Raitoharju ◽

...

Keyword(s):

Blood Pressure ◽

Mitochondrial Dna ◽

Genome Wide Association Study ◽

Rare Variants ◽

Meta Analysis ◽

Noncommunicable Diseases ◽

Nucleotide Polymorphisms ◽

Genetic Determinants ◽

Genome Wide ◽

Mitochondrial Dna Variants

AbstractHigh blood pressure (BP) is a major risk factor for many noncommunicable diseases. The effect of mitochondrial DNA single-nucleotide polymorphisms (mtSNPs) on BP is less known than that of nuclear SNPs. We investigated the mitochondrial genetic determinants of systolic, diastolic, and mean arterial BP. MtSNPs were determined from peripheral blood by sequencing or with genome-wide association study SNP arrays in two independent Finnish cohorts, the Young Finns Study and the Finnish Cardiovascular Study, respectively. In total, over 4200 individuals were included. The effects of individual common mtSNPs, with an additional focus on sex-specificity, and aggregates of rare mtSNPs grouped by mitochondrial genes were evaluated by meta-analysis of linear regression and a sequence kernel association test, respectively. We accounted for the predicted pathogenicity of the rare variants within protein-encoding and the tRNA regions. In the meta-analysis of 87 common mtSNPs, we did not observe significant associations with any of the BP traits. Sex-specific and rare-variant analyses did not pinpoint any significant associations either. Our results are in agreement with several previous studies suggesting that mtDNA variation does not have a significant role in the regulation of BP. Future studies might need to reconsider the mechanisms thought to link mtDNA with hypertension.

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Development of genome-wide single nucleotide polymorphism markers for variety identification of F1 hybrids in cucumber (Cucumis sativus L.)

Scientia Horticulturae ◽

10.1016/j.scienta.2021.110173 ◽

2021 ◽

Vol 285 ◽

pp. 110173

Author(s):

Girim Park ◽

Sung-Chur Sim ◽

Jin-Kee Jung ◽

Eun-Jo Shim ◽

Sang-Min Chung ◽

...

Keyword(s):

Single Nucleotide Polymorphism ◽

Cucumis Sativus ◽

F1 Hybrids ◽

Variety Identification ◽

Nucleotide Polymorphism ◽

Cucumis Sativus L ◽

Single Nucleotide ◽

Genome Wide

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Rediscovery of Rhacophorus yaoshanensis and Theloderma kwangsiensis at their type localities after five decades

Zootaxa ◽

10.11646/zootaxa.4379.4.2 ◽

2018 ◽

Vol 4379 (4) ◽

pp. 484 ◽

Cited By ~ 1

Author(s):

WEICAI CHEN ◽

XIAOWEN LIAO ◽

SHICHU ZHOU ◽

YUNMING MO ◽

YONG HUANG

Keyword(s):

Mitochondrial Dna ◽

16S Rrna ◽

Phylogenetic Relationships ◽

New Record ◽

Nature Reserve ◽

Guangxi Province ◽

Preliminary Assessment ◽

Phylogenetic Studies ◽

Pairwise Divergence ◽

High Support

Rhacophorus yaoshanensis Liu & Hu, 1962 and Theloderma kwangsiensis Liu & Hu, 1962 were described by Liu & Hu (1962) based on two specimens and one specimen, respectively, from the Dayaoshan Ranges, Guangxi, China. Since these two species were described, no additional specimens have been collected from their type localities, presenting an issue for phylogenetic studies of the genera. Five decades later, we have rediscovered R. yaoshanensis and T. kwangsiensis from their type localities. In this paper, we re-describe the two species and conduct a preliminary assessment of their phylogenetic relationships using two mitochondrial DNA genes (12S and 16S rRNA). The results indicate with high support that R. yaoshanensis is closely related to Rhacophorus pinglongensis. Theloderma kwangsiensis is nested within Theloderma corticale, with only 0.0–0.6% pairwise divergence, a level typical of intraspecific variation. Based on both molecular and morphological analyses, we further confirm that T. kwangsiensis is a synonym of T. corticale. Shiwandashan National Nature Reserve, Guangxi Province, China, is a new record for T. corticale.

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