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1. Gene Polymorphisms Among Plasmodium vivax Geographical Isolates and the Potential as New Biomarkers for Gametocyte Detection

   https://doi.org/10.3389/fcimb.2021.789417  

   Ford, Anthony ; Kepple, Daniel ; Williams, Jonathan ; Kolesar, Gabrielle ; Ford, Colby T. ; Abebe, Abnet ; Golassa, Lemu ; Janies, Daniel A. ; Yewhalaw, Delenasaw ; Lo, Eugenia ( January 2022 , Frontiers in Cellular and Infection Microbiology)

   The unique biological features of Plasmodium vivax not only make it difficult to control but also to eliminate. For the transmission of the malaria parasite from infected human to the vector, gametocytes play a major role. The transmission potential of a malarial infection is inferred based on microscopic detection of gametocytes and molecular screening of genes in the female gametocytes. Microscopy-based detection methods could grossly underestimate the reservoirs of infection as gametocytes may occur as submicroscopic or as micro- or macro-gametocytes. The identification of genes that are highly expressed and polymorphic in male and female gametocytes is critical for monitoring changes not only in their relative proportions but also the composition of gametocyte clones contributing to transmission over time. Recent transcriptomic study revealed two distinct clusters of highly correlated genes expressed in the P. vivax gametocytes, indicating that the male and female terminal gametocytogeneses are independently regulated. However, the detective power of these genes is unclear. In this study, we compared genetic variations of 15 and 11 genes expressed, respectively, in the female and male gametocytes among P. vivax isolates from Southeast Asia, Africa, and South America. Further, we constructed phylogenetic trees to determine the resolution power and clustering patterns of gametocyte clones. As expected, Pvs 25 (PVP01_0616100) and Pvs 16 (PVP01_0305600) expressed in the female gametocytes were highly conserved in all geographical isolates. In contrast, genes including 6-cysteine protein Pvs230 (PVP01_0415800) and upregulated in late gametocytes ULG8 (PVP01_1452800) expressed in the female gametocytes, as well as two CPW-WPC family proteins (PVP01_1215900 and PVP01_1320100) expressed in the male gametocytes indicated considerably high nucleotide and haplotype diversity among isolates. Parasite samples expressed in male and female gametocyte genes were observed in separate phylogenetic clusters and likely represented distinct gametocyte clones. Compared to Pvs 25, Pvs230 (PVP01_0415800) and a CPW-WPC family protein (PVP01_0904300) showed higher expression in a subset of Ethiopian P. vivax samples. Thus, Pvs230 , ULG8 , and CPW-WPC family proteins including PVP01_0904300, PVP01_1215900, and PVP01_1320100 could potentially be used as novel biomarkers for detecting both sexes of P. vivax gametocytes in low-density infections and estimating transmission reservoirs. 

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2. Association of EGLN1 gene with high aerobic capacity of Peruvian Quechua at high altitude

   https://doi.org/10.1073/pnas.1906171116  

   Brutsaert, Tom D. ; Kiyamu, Melisa ; Elias Revollendo, Gianpietro ; Isherwood, Jenna L. ; Lee, Frank S. ; Rivera-Ch, Maria ; Leon-Velarde, Fabiola ; Ghosh, Sudipta ; Bigham, Abigail W. ( November 2019 , Proceedings of the National Academy of Sciences)

   Highland native Andeans have resided at altitude for millennia. They display high aerobic capacity (VO 2 max) at altitude, which may be a reflection of genetic adaptation to hypoxia. Previous genomewide (GW) scans for natural selection have nominated Egl-9 homolog 1 gene ( EGLN1 ) as a candidate gene. The encoded protein, EGLN1/PHD2, is an O 2 sensor that controls levels of the Hypoxia Inducible Factor-α (HIF-α), which regulates the cellular response to hypoxia. From GW association and analysis of covariance performed on a total sample of 429 Peruvian Quechua and 94 US lowland referents, we identified 5 EGLN1 SNPs associated with higher VO 2 max (L⋅min −1 and mL⋅min −1 ⋅kg −1 ) in hypoxia (rs1769793, rs2064766, rs2437150, rs2491403, rs479200). For 4 of these SNPs, Quechua had the highest frequency of the advantageous (high VO 2 max) allele compared with 25 diverse lowland comparison populations from the 1000 Genomes Project. Genotype effects were substantial, with high versus low VO 2 max genotype categories differing by ∼11% (e.g., for rs1769793 SNP genotype TT = 34.2 mL⋅min −1 ⋅kg −1 vs. CC = 30.5 mL⋅min −1 ⋅kg −1 ). To guard against spurious association, we controlled for population stratification. Findings were replicated for EGLN1 SNP rs1769793 in an independent Andean sample collected in 2002. These findings contextualize previous reports of natural selection at EGLN1 in Andeans, and support the hypothesis that natural selection has increased the frequency of an EGLN1 causal variant that enhances O 2 delivery or use during exercise at altitude in Peruvian Quechua. 

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3. The worldwide invasion history of a pest ambrosia beetle inferred using population genomics

   https://doi.org/10.1111/mec.16993  

   Urvois, T. ; Perrier, C. ; Roques, A. ; Sauné, L. ; Courtin, C. ; Kajimura, H. ; Hulcr, J. ; Cognato, A. I. ; Auger‐Rozenberg, M. ‐A. ; Kerdelhué, C. ( May 2023 , Molecular Ecology)

   Xylosandrus crassiusculus, a fungus‐farming wood borer native to Southeastern Asia, is the most rapidly spreading invasive ambrosia species worldwide. Previous studies focusing on its genetic structure suggested the existence of cryptic genetic variation in this species. Yet, these studies used different genetic markers, focused on different geographical areas and did not include Europe. Our first goal was to determine the worldwide genetic structure of this species based on both mitochondrial and genomic markers. Our second goal was to studyX. crassiusculus' invasion history on a global level and identify the origins of the invasion in Europe. We used a COI and RAD sequencing design to characterize 188 and 206 specimens worldwide, building the most comprehensive genetic data set for any ambrosia beetle to date. The results were largely consistent between markers. Two differentiated genetic clusters were invasive, albeit in different regions of the world. The markers were inconsistent only for a few specimens found exclusively in Japan. Mainland USA could have acted as a source for further expansion to Canada and Argentina through stepping stone expansion and bridgehead events. We showed that Europe was only colonized by Cluster II through a complex invasion history including several arrivals from multiple origins in the native area, and possibly including bridgehead from the United States. Our results also suggested that Spain was colonized directly from Italy through intracontinental dispersion. It is unclear whether the mutually exclusive allopatric distribution of the two clusters is due to neutral effects or due to different ecological requirements.

    

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4. Leap‐frog dispersal and mitochondrial introgression: Phylogenomics and biogeography of Limnonectes fanged frogs in the Lesser Sundas Archipelago of Wallacea

   https://doi.org/10.1111/jbi.13526  

   Reilly, Sean B. ; Stubbs, Alexander L. ; Karin, Benjamin R. ; Bi, Ke ; Arida, Evy ; Iskandar, Djoko T. ; McGuire, Jimmy A. ( February 2019 , Journal of Biogeography)

   The Lesser Sunda Islands are situated between the Sunda and Sahul Shelves, with a linear arrangement that has functioned as a two‐way filter for taxa dispersing between the Asian and Australo‐Papuan biogeographical realms. Distributional patterns of many terrestrial vertebrates suggest a stepping‐stone model of island colonization. Here we investigate the timing and sequence of island colonization in Asian‐origin fanged frogs from the volcanic Sunda Arc islands with the goal of testing the stepping‐stone model of island colonization.

   The Indonesian islands of Java, Lombok, Sumbawa, Flores and Lembata.

   Limnonectes dammermaniandL. kadarsani(Family: Dicroglossidae)

   MitochondrialDNAwas sequenced from 153 frogs to identify major lineages and to select samples for an exon‐capture experiment. We designed probes to capture sequence data from 974 exonic loci (1,235,981 bp) from 48 frogs including the outgroup species,L. microdiscus. The resulting data were analysed using phylogenetic, population genetic and biogeographical model testing methods.

   The mtDNAphylogeny findsL. kadarsaniparaphyletic with respect toL. dammermani, with a pectinate topology consistent with the stepping‐stone model. Phylogenomic analyses of 974 exons recovered the two species as monophyletic sister taxa that diverged ~7.6 Ma with no detectable contemporary gene flow, suggesting introgression of theL. dammermanimitochondrion intoL. kadarsanion Lombok resulting from an isolated ancient hybridization event ~4 Ma. WithinL. kadarsani,the Lombok lineage diverged first while the Sumbawa and Lembata lineages are nested within a Flores assemblage composed of two parapatrically distributed lineages meeting in central Flores. Biogeographical model comparison found strict stepping‐stone dispersal to be less likely than models involving leap‐frog dispersal events.

   These results suggest that the currently accepted stepping‐stone model of island colonization might not best explain the current patterns of diversity in the archipelago. The high degree of genetic structure, large divergence times, and absent or low levels of migration between lineages suggests thatL. kadarsanirepresents five distinct species.

    

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5. Exhaled nitric oxide in ethnically diverse high‐altitude native populations: A comparative study

   https://doi.org/10.1002/ajpa.23915  

   Ghosh, Sudipta ; Kiyamu, Melisa ; Contreras, Paloma ; León‐Velarde, Fabiola ; Bigham, Abigail ; Brutsaert, Tom D. ( August 2019 , American Journal of Physical Anthropology)

   Andean and Tibetan high‐altitude natives exhibit a high concentration of nitric oxide (NO) in the lungs, suggesting that NO plays an adaptive role in offsetting hypobaric hypoxia. We examined the exhaled NO concentration as well as partial pressure of several additional high‐altitude native populations in order to examine the possibility that this putative adaptive trait, that is, high exhaled NO, is universal.

   We recruited two geographically diverse highland native populations, Tawang Monpa (TM), a Tibetan derived population in North‐Eastern India (n= 95, sampled at an altitude of ~3,200 m), and Peruvian Quechua from the highland Andes (n= 412). The latter included three distinct subgroups defined as those residing at altitude (Q‐HAR,n= 110, sampled at 4,338 m), those born and residing at sea‐level (Q‐BSL,n= 152), and those born at altitude but migrant to sea‐level (Q‐M,n= 150). In addition, we recruited a referent sample of lowland natives of European ancestry from Syracuse, New York. Fraction of exhaled NO concentrations were measured using a NIOX NIMO following the protocol of the manufacturer.

   Partial pressure of exhaled nitric oxide (PENO) was significantly lower (p < .05) in both high‐altitude resident groups (TM = 6.2 ± 0.5 nmHg and Q‐HAR = 5.8 ± 0.5 nmHg), as compared to the groups measured at sea level (USA = 14.6 ± 0.7 nmHg, Q‐BSL = 18.9 ± 1.6 nmHg, and Q‐M = 19.2 ± 1.7 nmHg). PENO was not significantly different between TM and Q‐HAR (p < .05).

   In contrast to previous work, we found lower PENO in populations at altitude (compared to sea‐level) and no difference in PENO between Tibetan and Andean highland native populations. These results do not support the hypothesis that high nitric oxide in human lungs is a universal adaptive mechanism of highland native populations to offset hypobaric hypoxia.

    

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