Use of high-density tiling microarrays to identify mutations globally and elucidate mechanisms of drug resistance in Plasmodium falciparum
about
Spiroindolones, a potent compound class for the treatment of malariaArtemisinin-based combination therapies: a vital tool in efforts to eliminate malariaGenome scanning of Amazonian Plasmodium falciparum shows subtelomeric instability and clindamycin-resistant parasitesPlasmodium falciparum genome-wide scans for positive selection, recombination hot spots and resistance to antimalarial drugsDrug resistance genomics of the antimalarial drug artemisininThe utility of genomic data for Plasmodium vivax population surveillanceApplication of genomics to field investigations of malaria by the international centers of excellence for malaria researchUsing genetic methods to define the targets of compounds with antimalarial activityChemical rescue of malaria parasites lacking an apicoplast defines organelle function in blood-stage Plasmodium falciparumA sugar phosphatase regulates the methylerythritol phosphate (MEP) pathway in malaria parasitesAntimalarial drug discovery - approaches and progress towards new medicines.A HECT ubiquitin-protein ligase as a novel candidate gene for altered quinine and quinidine responses in Plasmodium falciparumImaging of Plasmodium Liver Stages to Drive Next-Generation Antimalarial Drug DiscoveryAn erythrocyte cytoskeleton-binding motif in exported Plasmodium falciparum proteinsTargeting Plasmodium PI(4)K to eliminate malariaFosmidomycin uptake into Plasmodium and Babesia-infected erythrocytes is facilitated by parasite-induced new permeability pathwaysAn optimized microarray platform for assaying genomic variation in Plasmodium falciparum field populationsMuddled mechanisms: recent progress towards antimalarial target identificationA systems-based analysis of Plasmodium vivax lifecycle transcription from human to mosquitoIdentification and functional validation of the novel antimalarial resistance locus PF10_0355 in Plasmodium falciparumLipophilic prodrugs of FR900098 are antimicrobial against Francisella novicida in vivo and in vitro and show GlpT independent efficacyMitotic evolution of Plasmodium falciparum shows a stable core genome but recombination in antigen familiesAsexual populations of the human malaria parasite, Plasmodium falciparum, use a two-step genomic strategy to acquire accurate, beneficial DNA amplificationsIndustrial fuel ethanol yeasts contain adaptive copy number changes in genes involved in vitamin B1 and B6 biosynthesisValidation of isoleucine utilization targets in Plasmodium falciparumInvestigation of the DNA target design parameters for effective hybridization-induced aggregation of particles for the sequence-specific detection of DNA.Advances in parasite genomics: from sequences to regulatory networksGenome-wide nucleosome mapping of Plasmodium falciparum reveals histone-rich coding and histone-poor intergenic regions and chromatin remodeling of core and subtelomeric genesIdentification of inhibitors for putative malaria drug targets among novel antimalarial compounds.Experimental evolution, genetic analysis and genome re-sequencing reveal the mutation conferring artemisinin resistance in an isogenic lineage of malaria parasites.An adaptable two-color flow cytometric assay to quantitate the invasion of erythrocytes by Plasmodium falciparum parasites.A novel multifunctional oligonucleotide microarray for Toxoplasma gondii.Genome-wide polymorphisms and development of a microarray platform to detect genetic variations in Plasmodium yoelii.High-throughput 454 resequencing for allele discovery and recombination mapping in Plasmodium falciparum.An update on the rapid advances in malaria parasite cell biology.Artemisinin resistance in Plasmodium falciparum is associated with an altered temporal pattern of transcription.The landscape of inherited and de novo copy number variants in a Plasmodium falciparum genetic cross.Recent Progress in Functional Genomic Research in Plasmodium falciparumA microarray platform and novel SNP calling algorithm to evaluate Plasmodium falciparum field samples of low DNA quantity.Quantitative genome re-sequencing defines multiple mutations conferring chloroquine resistance in rodent malaria
P2860
Q24606915-F20B6160-10FA-43AF-B27D-BB9B2F94C634Q24614989-857C93E7-6660-4364-9F47-2F071DB4505EQ24625172-44EEE148-16D9-4B8F-A756-D2BD4877E1FBQ24642214-E01B3067-4E14-4466-8DA6-112BF00E2437Q26862789-50221714-0DF8-4A02-96FF-754E3D347F51Q26865002-90CFC26F-EE10-47B6-93AE-C84E5A2F786CQ27010267-BE2EFF65-46CD-4F08-AFD8-B18358B99F73Q27014788-F2C48FF3-5B66-4818-B08A-A4F07742AD4EQ27321104-BDA8C5DD-DC13-4EB0-9692-73677382DEAEQ27684806-DA09576D-A205-4462-8F50-5D8E1CD70BCFQ27693245-5F2A54C2-794C-40E3-B575-46DC30881EF9Q27861949-FC3EAB08-0AE7-4DDB-B90C-CADC2A17AE41Q27861956-48A15A3C-701A-4131-9CC0-431CC9A47F60Q27973520-13358F0A-97BE-4A60-A7C8-9EF83484E884Q27974482-17A67FBA-8F1C-4BCB-BE42-7DC4C6EFCA3FQ27974683-26607A2A-D276-41AC-A9A9-1C4BE4AE3AC1Q28031409-0249C242-A8F8-4892-BCA8-B5D2546743B7Q28066421-1D3C5A5F-22EF-463A-B5E5-371561883A60Q28473572-497DA46E-651C-4B8E-AC8F-2600ABF6CE5AQ28477846-7213E1F8-B2E8-4912-AAAC-BB87359091CFQ28484402-2F83B4BF-4872-438C-BF65-D3D00FF89CAAQ28486079-E1726C96-05DA-4D04-9BAD-C0AD97B6D00AQ28533270-83E3FB5B-1758-4B74-9751-B82FE5E10FDDQ28749566-3A38CD3F-ABA8-4A72-A5E2-09A90D401E74Q30045658-DA97A782-2D6E-48D8-9AD8-BB53DD12C993Q30300814-D814CB5D-FDE4-4534-86C3-46A9E394A4F2Q33513973-CEC439E4-96C6-4305-813E-096DCAA6EDA8Q33518894-0D1B2C69-EB59-4A39-BA86-3E291B05E923Q33682916-F23D804F-7009-43BB-94E8-F57A00E521B9Q33693947-2974A5F1-BBEA-46BB-99BF-9A0D1A65051FQ33703948-F4F7E23E-3570-47C6-9258-A5D313E73770Q33727411-15FA4D8A-B2CB-422B-912B-6B83436FC85AQ33737114-10F13D47-43F0-4B59-8338-BA324211F921Q33821609-56072AE4-7692-4966-8652-A37E7F67E8D0Q33905946-1F6C2CEB-9D09-4E73-BA04-CA386F378A9CQ33979085-00490FDB-291D-4D70-96A1-6E79F9960F15Q34026930-F1528C19-CC22-48E0-8BBC-A5D42B980B97Q34094261-649A1EF6-122A-44CD-88A0-CE2FF58CF7E6Q34130050-65E638E2-3812-4FA7-9C5E-086AC0675B29Q34204687-42EA47D5-80CD-4DA8-87DE-F39A0C0EFDA5
P2860
Use of high-density tiling microarrays to identify mutations globally and elucidate mechanisms of drug resistance in Plasmodium falciparum
description
2009 nî lūn-bûn
@nan
2009 թուականին հրատարակուած գիտական յօդուած
@hyw
2009 թվականին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
Use of high-density tiling mic ...... tance in Plasmodium falciparum
@ast
Use of high-density tiling mic ...... tance in Plasmodium falciparum
@en
Use of high-density tiling mic ...... tance in Plasmodium falciparum
@nl
type
label
Use of high-density tiling mic ...... tance in Plasmodium falciparum
@ast
Use of high-density tiling mic ...... tance in Plasmodium falciparum
@en
Use of high-density tiling mic ...... tance in Plasmodium falciparum
@nl
prefLabel
Use of high-density tiling mic ...... tance in Plasmodium falciparum
@ast
Use of high-density tiling mic ...... tance in Plasmodium falciparum
@en
Use of high-density tiling mic ...... tance in Plasmodium falciparum
@nl
P2093
P2860
P50
P3181
P356
P1433
P1476
Use of high-density tiling mic ...... tance in Plasmodium falciparum
@en
P2093
Amar Bir Singh Sidhu
Daniel J Park
David Plouffe
María Belén Cassera
Rich T Eastman
Scott J Westenberger
Selina Er Bopp
Yingyao Zhou
P2860
P2888
P3181
P356
10.1186/GB-2009-10-2-R21
P407
P577
2009-01-01T00:00:00Z
P5875
P6179
1043017262