Contrasting genetic structure in Plasmodium vivax populations from Asia and South America.
about
Understanding the population genetics of Plasmodium vivax is essential for malaria control and eliminationNeutral polymorphisms in putative housekeeping genes and tandem repeats unravels the population genetics and evolutionary history of Plasmodium vivax in IndiaPrimaquine for preventing relapse in people with Plasmodium vivax malaria treated with chloroquineAdvances in genetics and genomics: use and limitations in achieving malaria elimination goalsWhole genome sequencing of field isolates provides robust characterization of genetic diversity in Plasmodium vivaxPlasmodium vivax sporozoite challenge in malaria-naïve and semi-immune Colombian volunteersPlasmodium vivax Diversity and Population Structure across Four ContinentsContrasting Transmission Dynamics of Co-endemic Plasmodium vivax and P. falciparum: Implications for Malaria Control and EliminationWhole Genome Sequencing of Field Isolates Reveals Extensive Genetic Diversity in Plasmodium vivax from ColombiaGenetic diversity and population structure of Plasmodium vivax in Central ChinaReactive Case Detection for Plasmodium vivax Malaria Elimination in Rural Amazonia.Limited global diversity of the Plasmodium vivax merozoite surface protein 4 geneHigh complexity of Plasmodium vivax infections in symptomatic patients from a rural community in central Vietnam detected by microsatellite genotyping.Geographic structure of Plasmodium vivax: microsatellite analysis of parasite populations from Sri Lanka, Myanmar, and Ethiopia.Single-nucleotide polymorphism, linkage disequilibrium and geographic structure in the malaria parasite Plasmodium vivax: prospects for genome-wide association studies.Comparison of artemether-lumefantrine and chloroquine with and without primaquine for the treatment of Plasmodium vivax infection in Ethiopia: A randomized controlled trialMolecular and immunological analyses of confirmed Plasmodium vivax relapse episodesDistinct patterns of diversity, population structure and evolution in the AMA1 genes of sympatric Plasmodium falciparum and Plasmodium vivax populations of Papua New Guinea from an area of similarly high transmissionStrategies for designing and monitoring malaria vaccines targeting diverse antigensMultilocus genotyping reveals high heterogeneity and strong local population structure of the Plasmodium vivax population in the Peruvian Amazon.Worldwide genetic variability of the Duffy binding protein: insights into Plasmodium vivax vaccine developmentPlasmodium vivax populations revisited: mitochondrial genomes of temperate strains in Asia suggest ancient population expansion.Population structure and transmission dynamics of Plasmodium vivax in the Republic of Korea based on microsatellite DNA analysisMicrosatellite polymorphism in the sexually transmitted human pathogen Trichomonas vaginalis indicates a genetically diverse parasiteLimited polymorphism of the Plasmodium vivax merozoite surface protein 1 gene in isolates from TurkeyGlobal and local genetic diversity at two microsatellite loci in Plasmodium vivax parasites from Asia, Africa and South America.Population genetics of Plasmodium falciparum and Plasmodium vivax and asymptomatic malaria in Temotu Province, Solomon Islands.Multiple-clone activation of hypnozoites is the leading cause of relapse in Plasmodium vivax infectionConsistent safety and infectivity in sporozoite challenge model of Plasmodium vivax in malaria-naive human volunteers.A Large Plasmodium vivax Reservoir and Little Population Structure in the South Pacific.High-throughput ultrasensitive molecular techniques for quantifying low-density malaria parasitemias.Microsatellite DNA analysis revealed a drastic genetic change of Plasmodium vivax population in the Republic of Korea during 2002 and 2003.Chloroquine resistant vivax malaria in a pregnant woman on the western border of Thailand.Plasmodium vivax population structure and transmission dynamics in Sabah Malaysia.Worldwide sequence conservation of transmission-blocking vaccine candidate Pvs230 in Plasmodium vivax.Genetic diversity of Plasmodium vivax malaria in China and Myanmar.Genetic diversity of Plasmodium vivax population before elimination of malaria in Hainan Province, China.Development of a single nucleotide polymorphism barcode to genotype Plasmodium vivax infectionsRecent increase of genetic diversity in Plasmodium vivax population in the Republic of Korea.Plasmodium vivax populations are more genetically diverse and less structured than sympatric Plasmodium falciparum populations.
P2860
Q17485678-8EA8CAC3-56D6-411F-A95C-F3A848B43B9DQ21562240-8A33465B-88FC-44A8-911E-0D5BA79CFB78Q24202900-5D972BE5-FF42-40B6-8EEF-EDEABF3996FAQ28082023-F8899E7B-0A18-4526-9283-87BCED1F2234Q28483522-929C880F-2D75-4CA7-9F3C-78E0F263F99BQ28539992-2643BD83-6B68-44B1-A304-86F963BA50EEQ28545982-D2722B0C-02D4-4F51-A2D0-857953E5668EQ28547081-8B4EE1A2-B4D3-4093-8108-32563ADF09F0Q28551791-AC3C00ED-01AD-41D3-8D0C-940803D60024Q28655779-D992B466-D076-4440-80EF-B731CFEADF4EQ30379318-4BB46C92-2078-47C3-B8C6-30C42B3144FFQ33437974-0EB00FBD-0B85-4EFD-B3F7-23C184D5565FQ33617549-FA201B1F-88C3-4592-9ABA-42FE6F625AA7Q33617568-64001843-FEA9-4A66-A38A-AA726B60B82AQ33631643-E74EFED6-E4C4-4B25-A7DD-A4DFCAA64458Q33693625-F27AA478-56B4-4B4B-9ADD-FFCCD5BAAAF1Q33743556-2E5E1F5F-A289-421F-8C73-DEF5EBE6B40AQ33859217-FA270D9D-3315-4FAF-B360-99CECABCE613Q33959038-CD03A427-1687-4E0B-9545-B142967B8A46Q33968814-AEE8A01C-2C26-48FF-8F86-6F1560FF1005Q33988630-E32CB360-3C44-4480-A384-552656B2781DQ34160530-CC9C8098-BCA2-4358-AE39-A175DD8EE51CQ34235693-6B6BDC79-5582-4C28-8DF4-E1CC1FDA5C4FQ34279763-D32E4BA5-678F-48C8-82A2-1DE493B5BA9EQ34341789-87AF066C-5E56-4657-979C-1155CDFB70ABQ34354870-F66D790A-521F-4050-AF0D-8FA8D2C2FA17Q34465321-EE3EC994-158D-4CF3-8E90-6A56541069C2Q34490613-80BBE91E-B0DA-4FE3-9610-DB1CCF40EDE1Q34546194-3568D5D8-4B5A-4559-942B-B609D091CF12Q34792787-64E470B2-A144-4D43-83E7-D179B6733091Q35035764-54EDDDAC-1642-4E36-85D7-9D74611F6374Q35037067-2196EA81-3F2C-4A78-B201-BCB2B9BE72F2Q35038618-84C6D447-1D35-4E41-809A-8256F15F34E5Q35072841-92E9F673-704D-4993-BE42-A55EE2D5EE04Q35088997-4C5C4516-491B-4627-8457-BA240B6602EBQ35126436-1038864D-B163-4E7B-9519-754E69C35361Q35162551-1B319771-A3C7-423C-9E7E-19A2EB801DC1Q35185296-FC6D48A7-F938-44C9-809E-6B0EF35C58A9Q35221907-87D80663-8BA3-4F04-A910-C623BB8276ABQ35432096-EA079638-DBBA-4D9C-B7FB-28DF74F48CAE
P2860
Contrasting genetic structure in Plasmodium vivax populations from Asia and South America.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
Contrasting genetic structure ...... s from Asia and South America.
@en
Contrasting genetic structure ...... s from Asia and South America.
@nl
type
label
Contrasting genetic structure ...... s from Asia and South America.
@en
Contrasting genetic structure ...... s from Asia and South America.
@nl
prefLabel
Contrasting genetic structure ...... s from Asia and South America.
@en
Contrasting genetic structure ...... s from Asia and South America.
@nl
P2093
P50
P1476
Contrasting genetic structure ...... s from Asia and South America.
@en
P2093
Amitab Nandy
Daniel Sudimack
Jane M Carlton
Jeff T Williams
Jung Ryong Kim
Paul N Newton
Tim J C Anderson
P304
P356
10.1016/J.IJPARA.2007.02.010
P50
P577
2007-03-12T00:00:00Z