SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2996441255> ?p ?o ?g. }

Showing items 1 to 100 of ±149 with 100 items per page.

W2996441255 abstract "Abstract Genetic crosses are most powerful for linkage analysis when progeny numbers are high, when parental alleles segregate evenly and, for hermaphroditic organisms, when numbers of inbred progeny are minimized. We previously developed a novel genetic crossing platform for the human malaria parasite Plasmodium falciparum , an obligately sexual, hermaphroditic protozoan, using mice carrying human hepatocytes (the human liver-chimeric FRG NOD huHep mouse) as the vertebrate host. Here we examine the statistical power of two different genetic crosses – (1) between a laboratory parasite (NF54) of African origin and a patient-derived Asian parasite, and (2) between two sympatric patient-derived Asian parasites. We generated >140 unique recombinant clones over a 12-month period from the four parental genotypes, doubling the number of unique recombinant progeny generated in the previous 30 years. Both crosses show bi-parental inheritance of plastid markers amongst recombinant progeny, in contrast to previous crosses (conducted using chimpanzee hosts) which carried single dominant plastid genotypes. Both crosses show distinctive segregation patterns. The allopatric African/Asian cross has minimal levels of inbreeding (2% of clonal progeny are inbred) and extreme skews in marker segregation, while in the sympatric Asian cross, inbred progeny predominate (66% of clonal progeny are inbred) and parental alleles segregate evenly. Using simulations, we demonstrate that these progeny arrays (particularly the sympatric Asian cross) have excellent power to map large-effect mutations to a 31 kb interval and can capture complex, epistatic interactions that were far beyond the capacity of previous malaria crosses to detect. The extreme segregation distortion in the allopatric African/Asian cross erodes power to detect linkage in several genome regions, but the repeatable distortions observed offer promising alternative approaches to identifying genes underlying traits of interest. These crosses show surprising variation in marker segregation, nevertheless, the increased progeny numbers improve our ability to rapidly map biomedically important parasite traits. Author Summary Understanding how genome mutations contribute to newly emerging drug resistance in parasites like Plasmodium falciparum is important to monitor the spread of drug resistance. This scenario has been playing out in Southeast Asia with the emergence and spread of artemisinin resistance. Here we show that new P. falciparum genetic crosses, using mice carrying human liver cells and infused with human red blood cells (the human liver-chimeric FRG NOD huHep/huRBC mouse), provide an important new tool for understanding complex interactions underlying drug resistance phenotypes. We report two new genetic maps with 84 and 60 unique recombinant progeny, which doubles the number of progeny available from 4 previous P. falciparum genetic crosses. Through extensive simulations we show that with 84 progeny we can find association for a gene that controls only 20% of the variation in a phenotype. We also show that a cross generated from Southeast Asian parasites collected from the same geographic region have unique characteristics not previously observed in P. falciparum genetic crosses. This Southeast Asian cross exhibits even segregation across the genome, unbiased inheritance of mitochondria and apicoplast and higher levels of inbreeding than previously observed." @default.
W2996441255 created "2019-12-26" @default.
W2996441255 creator A5007738061 @default.
W2996441255 creator A5007795787 @default.
W2996441255 creator A5009984025 @default.
W2996441255 creator A5014639053 @default.
W2996441255 creator A5019857186 @default.
W2996441255 creator A5022298202 @default.
W2996441255 creator A5031555005 @default.
W2996441255 creator A5033684035 @default.
W2996441255 creator A5043733275 @default.
W2996441255 creator A5047516797 @default.
W2996441255 creator A5051336768 @default.
W2996441255 creator A5058858406 @default.
W2996441255 creator A5061493364 @default.
W2996441255 creator A5069042958 @default.
W2996441255 creator A5072425194 @default.
W2996441255 creator A5075703181 @default.
W2996441255 creator A5077702056 @default.
W2996441255 creator A5080523815 @default.
W2996441255 creator A5081472070 @default.
W2996441255 date "2019-12-13" @default.
W2996441255 modified "2023-10-16" @default.
W2996441255 title "Surprising variation in the outcome of two malaria genetic crosses using humanized mice: implications for genetic mapping and malaria biology" @default.
W2996441255 cites W1694215848 @default.
W2996441255 cites W1825227406 @default.
W2996441255 cites W1969571661 @default.
W2996441255 cites W1976656705 @default.
W2996441255 cites W1980752431 @default.
W2996441255 cites W1982278524 @default.
W2996441255 cites W1993347313 @default.
W2996441255 cites W1999416988 @default.
W2996441255 cites W2018732951 @default.
W2996441255 cites W2019851585 @default.
W2996441255 cites W2025107497 @default.
W2996441255 cites W2026791163 @default.
W2996441255 cites W2027834647 @default.
W2996441255 cites W2047817180 @default.
W2996441255 cites W2062551754 @default.
W2996441255 cites W2065594536 @default.
W2996441255 cites W2075354549 @default.
W2996441255 cites W2083280521 @default.
W2996441255 cites W2084702484 @default.
W2996441255 cites W2090082914 @default.
W2996441255 cites W2091524791 @default.
W2996441255 cites W2116100197 @default.
W2996441255 cites W2124634096 @default.
W2996441255 cites W2128002102 @default.
W2996441255 cites W2132923209 @default.
W2996441255 cites W2135697415 @default.
W2996441255 cites W2143091657 @default.
W2996441255 cites W2143484788 @default.
W2996441255 cites W2145400957 @default.
W2996441255 cites W2146285118 @default.
W2996441255 cites W2147775888 @default.
W2996441255 cites W2154534981 @default.
W2996441255 cites W2155904118 @default.
W2996441255 cites W2161044932 @default.
W2996441255 cites W2162928486 @default.
W2996441255 cites W2166369726 @default.
W2996441255 cites W2167470461 @default.
W2996441255 cites W2168133698 @default.
W2996441255 cites W2217028767 @default.
W2996441255 cites W2273900672 @default.
W2996441255 cites W2306360051 @default.
W2996441255 cites W2310737069 @default.
W2996441255 cites W2474522617 @default.
W2996441255 cites W2514285416 @default.
W2996441255 cites W2558837609 @default.
W2996441255 cites W2793461513 @default.
W2996441255 cites W2901779570 @default.
W2996441255 cites W2970652571 @default.
W2996441255 cites W2979817677 @default.
W2996441255 doi "https://doi.org/10.1101/2019.12.13.871830" @default.
W2996441255 hasPublicationYear "2019" @default.
W2996441255 type Work @default.
W2996441255 sameAs 2996441255 @default.
W2996441255 citedByCount "1" @default.
W2996441255 countsByYear W29964412552021 @default.
W2996441255 crossrefType "posted-content" @default.
W2996441255 hasAuthorship W2996441255A5007738061 @default.
W2996441255 hasAuthorship W2996441255A5007795787 @default.
W2996441255 hasAuthorship W2996441255A5009984025 @default.
W2996441255 hasAuthorship W2996441255A5014639053 @default.
W2996441255 hasAuthorship W2996441255A5019857186 @default.
W2996441255 hasAuthorship W2996441255A5022298202 @default.
W2996441255 hasAuthorship W2996441255A5031555005 @default.
W2996441255 hasAuthorship W2996441255A5033684035 @default.
W2996441255 hasAuthorship W2996441255A5043733275 @default.
W2996441255 hasAuthorship W2996441255A5047516797 @default.
W2996441255 hasAuthorship W2996441255A5051336768 @default.
W2996441255 hasAuthorship W2996441255A5058858406 @default.
W2996441255 hasAuthorship W2996441255A5061493364 @default.
W2996441255 hasAuthorship W2996441255A5069042958 @default.
W2996441255 hasAuthorship W2996441255A5072425194 @default.
W2996441255 hasAuthorship W2996441255A5075703181 @default.
W2996441255 hasAuthorship W2996441255A5077702056 @default.
W2996441255 hasAuthorship W2996441255A5080523815 @default.
W2996441255 hasAuthorship W2996441255A5081472070 @default.
W2996441255 hasBestOaLocation W29964412551 @default.