about
Draft genome sequence of the sexually transmitted pathogen Trichomonas vaginalisThe genome sequence of Salmonella enterica serovar Choleraesuis, a highly invasive and resistant zoonotic pathogen.The genome sequence of Salmonella enterica serovar Choleraesuis, a highly invasive and resistant zoonotic pathogenGenome of Acanthamoeba castellanii highlights extensive lateral gene transfer and early evolution of tyrosine kinase signalingMalate dehydrogenase is negatively regulated by miR-1 in Trichomonas vaginalisPeripheral immune cell gene expression changes in advanced non-small cell lung cancer patients treated with first line combination chemotherapyChIPseek, a web-based analysis tool for ChIP dataBikunin loss in urine as useful marker for bladder carcinoma.A transcriptomic study on the pepsin-activated infective larvae of Angiostrongylus cantonensis.Complete genome and transcriptomes of Streptococcus parasanguinis FW213: phylogenic relations and potential virulence mechanismsA proteome reference map of Trichomonas vaginalis.Genome evolution driven by host adaptations results in a more virulent and antimicrobial-resistant Streptococcus pneumoniae serotype 14Proteomic analysis of the effect of cyanide on Klebsiella oxytoca.DSAP: deep-sequencing small RNA analysis pipelineTrichomonas vaginalis vast BspA-like gene family: evidence for functional diversity from structural organisation and transcriptomics.RNA recombination in Hepatitis delta virus: Identification of a novel naturally occurring recombinant.Novel approach for coexpression analysis of E2F1-3 and MYC target genes in chronic myelogenous leukemia.Comparative transcriptomic and proteomic analyses of Trichomonas vaginalis following adherence to fibronectin.Interference of Co-amplified nuclear mitochondrial DNA sequences on the determination of human mtDNA heteroplasmy by Using the SURVEYOR nuclease and the WAVE HS systemTranscriptomic identification of iron-regulated and iron-independent gene copies within the heavily duplicated Trichomonas vaginalis genome.A cytoplasmic RNA virus generates functional viral small RNAs and regulates viral IRES activity in mammalian cellsFunctional profiling of the Tritrichomonas foetus transcriptome and proteome.Potential impact on kidney infection: a whole-genome analysis of Leptospira santarosai serovar Shermani.Comparative studies on the proteomic expression patterns in the third- and fifth-stage larvae of Angiostrongylus cantonensis.CMPD: cancer mutant proteome database.Is the whole greater than the sum of its parts? De novo assembly strategies for bacterial genomes based on paired-end sequencing.The change of microbial community from chlorinated solvent-contaminated groundwater after biostimulation using the metagenome analysis.Novel insights into the molecular events linking to cell death induced by tetracycline in the amitochondriate protozoan Trichomonas vaginalis.Ultra-deep targeted sequencing of advanced oral squamous cell carcinoma identifies a mutation-based prognostic gene signaturePredicting Length of Stay among Patients Discharged from the Emergency Department-Using an Accelerated Failure Time Model.PARRoT- a homology-based strategy to quantify and compare RNA-sequencing from non-model organisms.ChloroMitoCU: Codon patterns across organelle genomes for functional genomics and evolutionary applicationsWhole Genome DNA Methylation Analysis of Obstructive Sleep Apnea: IL1R2, NPR2, AR, SP140 Methylation and Clinical Phenotype.A novel DNA sequence periodicity decodes nucleosome positioning.Transcriptome profiling of the fifth-stage larvae of Angiostrongylus cantonensis by next-generation sequencing.Genome-wide association study reveals multiple nasopharyngeal carcinoma-associated loci within the HLA region at chromosome 6p21.3.Recombinant α-actinin subunit antigens of Trichomonas vaginalis as potential vaccine candidates in protecting against trichomoniasis.Identification and characterisation of microRNAs in young adults of Angiostrongylus cantonensis via a deep-sequencing approach.A transcriptomic analysis on gene expressions in the infective third and pathogenic fifth larval stages of Angiostrongylus cantonensis.Distinct expression of interferon-induced protein with tetratricopeptide repeats (IFIT) 1/2/3 and other antiviral genes between subsets of dendritic cells induced by dengue virus 2 infection.
P50
Q22065878-9B66C930-AC9E-46CD-9017-791D67176F61Q22065982-A0F2AB40-74DB-4684-B347-8BFAC0893A0BQ24806145-E8B4CBC7-5158-48F5-ABFD-EB826969B7C8Q27499704-3EC0153E-D949-42DF-AB7A-915BF02CEE90Q28259499-E7A903C3-4371-4E66-9DC4-B73ABECA1B92Q28394867-4F591720-B26D-48F8-A217-B13CE5698B52Q30833876-A3FFB6CC-5EC3-460B-9B2F-8B244758665DQ30885541-630A3FE3-9DEB-4BF0-A4DD-113CF6A81C5BQ31015167-3768DC92-D583-4922-8601-A08156648FD6Q31056771-889F1AFF-B40F-41EC-926B-1A6F2BA39D76Q33391456-83E78699-41DA-4626-B4F6-85418F9F4849Q33429266-CDF1B77D-9865-4CC9-8E3C-16E946FB1E3DQ33516131-17C766CA-0CD1-4C17-830F-C1DA59F434DCQ33579787-6D876716-73D1-458C-A04E-3A0041DFDE80Q33745806-F118DB72-8CDA-43A0-B047-BA9CBE10F897Q34045824-B9B63C38-E55C-4799-8E5E-559DB44E202CQ34080529-AAAEE010-6BA9-4712-86B5-7A81ECA3A2E4Q34395005-21A6CAEC-6F10-417D-B860-0912D9AF1A6CQ34411819-F6B2966D-629F-46F2-811C-A1AA40CD651FQ34414163-682F46F5-6C39-413C-B12A-889D0C7E4EC6Q34489762-B3829147-FB4D-4226-85C4-26B86B8D29B8Q34518514-219490ED-F01D-4C05-811D-0D6A97ABEDC9Q34762846-4180F018-1485-4598-A594-A279C2533403Q35207438-AE0FAA7B-0232-4F4D-9C93-2AA8B2ACA11DQ35254275-412C0791-21E4-40DA-B694-71B31E1D5868Q35758023-4BCBC4F6-8CF8-4988-9CA7-49ADDC2A8928Q35810649-7141E267-0978-459E-81E0-66A68FD4C6ADQ36158479-3B946A09-2F14-42F3-A97D-68927AB6CFF9Q36210809-88C67C54-C100-471F-97D2-DC93CE5C50E6Q36255306-74A7740A-F890-497E-A9E1-CB8D38860AFBQ36268804-9ECC8E1A-6EAD-4405-AC93-E5525C87806AQ36349857-122B69CB-B045-4A42-96CB-6CA77D28133BQ36686463-3CCFA0F5-933C-4831-AEC8-AC6CFB3715F0Q36959701-6AD4F759-FC51-450F-8811-E2D0A0554EB9Q37094012-07CF1AE0-CA3B-453A-B24B-27B6ED0ECCBFQ37301260-19E3B19A-075E-49E3-8058-5C9D8799F93EQ37645366-4B1753CB-B5A8-4AE6-B0C6-30E2C6276F4BQ37675348-776EB681-5A44-4D15-9E04-D223EF096697Q38486055-00EA342D-6CA9-4056-83E1-A2644EAA300EQ38773900-93341AAB-EE66-435D-A4D6-5993C74F1619
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Petrus Tang
@ast
Petrus Tang
@en
Petrus Tang
@es
Petrus Tang
@nl
Petrus Tang
@sl
type
label
Petrus Tang
@ast
Petrus Tang
@en
Petrus Tang
@es
Petrus Tang
@nl
Petrus Tang
@sl
prefLabel
Petrus Tang
@ast
Petrus Tang
@en
Petrus Tang
@es
Petrus Tang
@nl
Petrus Tang
@sl
P106
P21
P2456
P2798
P31
P496
0000-0002-2779-0116