about
An ACF1-ISWI chromatin-remodeling complex is required for DNA replication through heterochromatinCharacterization of the cloned promoter of the human initiation factor 4AI geneDisplacement of YY1 by differentiation-specific transcription factor hSkn-1a activates the P(670) promoter of human papillomavirus type 16.APOBEC3A and 3C decrease human papillomavirus 16 pseudovirion infectivity.Genetic variation of human papillomavirus type 16 in individual clinical specimens revealed by deep sequencing.Characterization of novel transcripts of human papillomavirus type 16 using cap analysis gene expression technology.Identification of TRAPPC8 as a host factor required for human papillomavirus cell entryComparison of methods using paraffin-embedded tissues and exfoliated cervical cells to evaluate human papillomavirus genotype attributionReplication interference between human papillomavirus types 16 and 18 mediated by heterologous E1 helicases.APOBEC3 deaminases induce hypermutation in human papillomavirus 16 DNA upon beta interferon stimulation.Inhibition of NAD+ glycohydrolase and ADP-ribosyl cyclase activities of leukocyte cell surface antigen CD38 by gangliosides.Genetic variations of human papillomavirus type 16: implications for cervical carcinogenesis.Human Papillomavirus 16 E6 Upregulates APOBEC3B via the TEAD Transcription Factor.Identification of APOBEC3B promoter elements responsible for activation by human papillomavirus type 16 E6.Human papillomavirus genotype distribution in cervical intraepithelial neoplasia grade 2/3 and invasive cervical cancer in Japanese women.Transcription factor human Skn-1a enhances replication of human papillomavirus DNA through the direct binding to two sites near the viral replication origin.Whole-genome analysis of human papillomavirus genotypes 52 and 58 isolated from Japanese women with cervical intraepithelial neoplasia and invasive cervical cancer.Detection of hypermutated human papillomavirus type 16 genome by Next-Generation Sequencing.Hypermutation in the E2 gene of human papillomavirus type 16 in cervical intraepithelial neoplasia.Rolling circle replication of human papillomavirus type 16 DNA in epithelial cell extracts.The histone-fold protein complex CHRAC-15/17 enhances nucleosome sliding and assembly mediated by ACF.Within-Host Variations of Human Papillomavirus Reveal APOBEC-Signature Mutagenesis in the Viral Genome.Novel multiplexed genotyping of human papillomavirus using a VeraCode-allele-specific primer extension method.Significance of Thr182 in the nucleotide-exchange and GTP-hydrolysis reactions of the alpha subunit of GTP-binding protein Gi2.Whole-Genome Analysis of Human Papillomavirus Type 16 Prevalent in Japanese Women with or without Cervical Lesions.Tyrosine phosphorylation of the c-cbl proto-oncogene product mediated by cell surface antigen CD38 in HL-60 cellsRadiolabeling of catalytic subunits of PI 3-kinases with 17 beta-hydroxy-16 alpha(-)[125I]iodowortmannin: identification of the G beta gamma-sensitive isoform as a complex composed of 46-kDa and 100-kDa subunitsAccumulation of cyclic ADP-ribose measured by a specific radioimmunoassay in differentiated human leukemic HL-60 cells with all-trans-retinoic acidEnhanced oncogenicity of human papillomavirus type 16 (HPV16) variants in Japanese population[Human papillomavirus and cervical cancer]CCAAT/enhancer binding protein beta binds to and activates the P670 promoter of human papillomavirus type 16Identification of nucleolin as a protein that binds to human papillomavirus type 16 DNAThe Transcriptional Cofactor VGLL1 Drives Transcription of Human Papillomavirus Early Genes via TEAD1Establishment and Molecular Phenotyping of Organoids from the Squamocolumnar Junction Region of the Uterine CervixThe homeobox transcription factor HOXC13 upregulates human papillomavirus E1 gene expression and contributes to viral genome maintenance
P50
Q24318717-FF622685-BDE3-4019-94EB-4B0BEA75DAF6Q24324564-A5C2D7C0-70A6-4058-9D47-9F884AF02725Q33845699-6C2909D6-AAD8-4348-A0D2-C16014257204Q34457526-49778758-5B36-417F-B706-13EEDB618ED8Q35043973-E2E3D5C6-213D-4931-B2E4-B0351AFD9631Q35115646-2BBCB97D-1E3D-4C31-800E-37188B0723C1Q37308756-A5AAA5D9-45E0-416F-BE23-BA2A95BA06CBQ37375242-7BD9034A-3712-433C-BE04-20C89FAB8069Q37522596-33A19866-F313-43DE-A233-C6AA42910AC0Q37547486-3585209F-8969-4A8E-A556-2B8D28C97548Q38357449-652659B0-CABD-4379-9B2F-774E69E27D0EQ38376142-70ED5FA2-701A-4942-8559-C5350FA0C954Q38721814-0B74A182-68DE-4449-BE01-B9ECDF8A43CFQ38896105-4B62DBD7-FF6C-4379-8E9D-C674635ECF2DQ39139886-E305EC83-B401-4CFD-83BF-24544A4918E4Q39982567-61A68CF8-3A2C-49AE-948D-AB52C64DD54DQ40091466-234C17EB-31B2-42A0-8172-6560D8E41F2EQ41006849-99E559F6-76B6-432A-B21E-7858ACFD2561Q41284449-D44456FF-FC0B-47F1-9909-7FBA66861E51Q43986161-98FF4C05-04C8-4B72-A25C-6DFE45FD4E50Q44753580-B83BD628-3BD4-4878-A221-F0DA0BC7E210Q51148925-66B72BF9-AB01-4807-95FF-300066E9F0D6Q54335305-BCCD55E1-B99B-4F6D-923B-4B50A65D0743Q54600388-600EBE96-CAB5-473A-BB3E-5AF8A6324B9CQ64941024-935BC3BE-AB17-410D-9C6B-75B8668FAAC7Q70937503-026EF8C3-57BD-4EDD-8436-C041D50C38C5Q71560972-4FEAA28A-1E7C-4E17-8D70-5910A4858F53Q72052254-F50B4456-9C5A-48D0-8194-B88775B0E671Q73954948-8DD76FAD-0E72-4033-90CB-1EF9DFCF4814Q80187747-B09F1DC5-EA0A-4A3E-8757-82B63C175CD7Q81530254-7B417E39-9D39-41DD-A2FD-943392EF38AEQ84250617-09D2FF1B-D567-4136-AA5F-EDCB7EA23754Q90051683-52892CC7-0ACA-4EA4-9A7E-E9B0F5172262Q90401066-53411979-CEC6-40D7-9977-BFFA804CD972Q90899226-3D5822ED-F841-43FA-928A-D108D4354EE2
P50
description
researcher ORCID ID = 0000-0001-9080-1642
@en
wetenschapper
@nl
name
Iwao Kukimoto
@ast
Iwao Kukimoto
@en
Iwao Kukimoto
@es
Iwao Kukimoto
@nl
type
label
Iwao Kukimoto
@ast
Iwao Kukimoto
@en
Iwao Kukimoto
@es
Iwao Kukimoto
@nl
prefLabel
Iwao Kukimoto
@ast
Iwao Kukimoto
@en
Iwao Kukimoto
@es
Iwao Kukimoto
@nl
P106
P1153
55094058400
P31
P496
0000-0001-9080-1642