about
Epstein-Barr virus encoded nuclear protein EBNA-3 binds a novel human uridine kinase/uracil phosphoribosyltransferaseA cosmid and cDNA fine physical map of a human chromosome 13q14 region frequently lost in B-cell chronic lymphocytic leukemia and identification of a new putative tumor suppressor gene, Leu5HYAL1 and HYAL2 inhibit tumour growth in vivo but not in vitroNotI flanking sequences: a tool for gene discovery and verification of the human genome.Assignment of CDK5R2 coding for the cyclin-dependent kinase 5, regulatory subunit 2 (NCK5AI protein) to human chromosome band 2q35 by fluorescent in situ hybridizationAssignment of the GPR14 gene coding for the G-protein-coupled receptor 14 to human chromosome 17q25.3 by fluorescent in situ hybridizationHuman chromosome 3: integration of 60 NotI clones into a physical and gene maphUNC93B1: a novel human gene representing a new gene family and encoding an unc-93-like proteinCloning of two candidate tumor suppressor genes within a 10 kb region on chromosome 13q14, frequently deleted in chronic lymphocytic leukemiahUNC-93B1, a novel gene mainly expressed in the heart, is related to left ventricular diastolic function, heart failure morbidity and mortality in elderly menAssignment of the ARHA and GPX1 genes to human chromosome bands 3p21.3 by in situ hybridization and with somatic cell hybridsConstruction of a 600-kilobase cosmid clone contig and generation of a transcriptional map surrounding the lung cancer tumor suppressor gene (TSG) locus on human chromosome 3p21.3: progress toward the isolation of a lung cancer TSGInhibition of tumor cell proliferation and motility by fibroblasts is both contact and soluble factor dependent.A new approach to genome mapping and sequencing: slalom libraries.NotI clones in the analysis of the human genomeNotI linking/jumping clones of human chromosome 3: mapping of the TFRC, RAB7 and HAUSP genes to regions rearranged in leukemia and deleted in solid tumors.High mutability of the tumor suppressor genes RASSF1 and RBSP3 (CTDSPL) in cancer.Simultaneous down-regulation of tumor suppressor genes RBSP3/CTDSPL, NPRL2/G21 and RASSF1A in primary non-small cell lung cancer.Epigenetic alterations of chromosome 3 revealed by NotI-microarrays in clear cell renal cell carcinoma.LRRC3B gene is frequently epigenetically inactivated in several epithelial malignancies and inhibits cell growth and replication.Characterization of a new SNP c767A/T (Arg222Trp) in the candidate TSG FUS2 on human chromosome 3p21.3: prevalence in Asian populations and analysis of association with nasopharyngeal cancer.Localization of human ARF2 and NCK genes and 13 other NotI-linking clones to chromosome 3 by fluorescence in situ hybridization.Functional characterization of the candidate tumor suppressor gene NPRL2/G21 located in 3p21.3C.Alterations of the WNT7A gene in clear cell renal cell carcinomasD-glucuronyl C5-epimerase suppresses small-cell lung cancer cell proliferation in vitro and tumour growth in vivo.Integrin alpha9 (ITGA9) expression and epigenetic silencing in human breast tumorsTumor Suppressor Function of the SEMA3B Gene in Human Lung and Renal CancersCloning and Initial Functional Characterization of Mlk4α and Mlk4βIdentification of Novel Epigenetic Markers of Prostate Cancer by NotI-Microarray AnalysisThe TCF4/β-catenin pathway and chromatin structure cooperate to regulate D-glucuronyl C5-epimerase expression in breast cancer.miRNA-218 contributes to the regulation of D-glucuronyl C5-epimerase expression in normal and tumor breast tissues.Integrin α9 gene promoter is hypermethylated and downregulated in nasopharyngeal carcinoma.Shot-gun sequencing strategy for long-range genome mapping: a pilot study.Somatic cell hybrid panel and NotI linking clones for physical mapping of human chromosome 3.NotI linking clones as a tool for joining physical and genetic maps of the human genome.Alu-PCR approach to isolating NotI-linking clones from the 3p14-p21 region frequently deleted in renal cell carcinoma.Novel tumor suppressor candidates on chromosome 3 revealed by NotI-microarrays in cervical cancerTissue-specificity of heparan sulfate biosynthetic machinery in cancer.RhoA knockout fibroblasts lose tumor-inhibitory capacity in vitro and promote tumor growth in vivoRestriction site tagged (RST) microarrays: a novel technique to study the species composition of complex microbial systems
P50
Q24305370-3ED71B4B-8F5C-414C-A93D-93E84D18CA97Q24318946-1A6FD74B-1AC6-47A1-BEA5-CD9953DD310CQ24336517-F197ED27-5377-498E-936E-AF04714BCC5FQ24540331-B2C4B7AB-A907-4F5E-85D7-1D64323DECBAQ28144924-970F77EC-E9E7-492E-A34F-78ECF3DF22E7Q28145285-1E0B1E19-37ED-4CEB-B229-A065E2196CF6Q28191380-3D1D23C1-D826-4CD5-99E3-27460BB113BFQ28203949-0A52848A-A31C-4755-A760-196145A04409Q28256227-308120C5-7229-40F1-B69D-B2DB6695D020Q28268189-761442FC-7346-47F2-940F-E42813B23BB3Q28272273-923C5E18-C929-4C55-B917-9D04A3AFA16CQ28276270-77FC9573-0C2C-4C96-97B2-61FD7BF1697CQ30606334-9F4F2C63-CDEB-4C9F-B996-C6F54C2D5E82Q30795978-43338745-796E-45DB-B694-4D0AE14C8456Q30845066-15F34F49-DE23-49BD-8C31-04F7CAA55699Q32147369-2BCA5E72-0766-435A-A40E-1CE69B73CA68Q33455585-9718564F-A15C-46BE-AA9C-554DB65C2B1DQ33535501-63B7ABC3-AB84-40E8-8E52-1119BB9AF53FQ33745551-71E48E83-C0B8-4834-99EC-4C6506D7CB6BQ34253325-99A509B3-EEF3-4818-9834-29B6BE68246DQ34307745-32091C9E-EDFA-483B-A9A1-0520B3FAE28AQ34325290-2154262B-03EF-4EB9-8359-CB8075FEA758Q34349241-AA081866-5DC7-4748-A797-614032DB7741Q34442670-7C48E444-456F-4DFC-A242-DC69E3CF38E0Q35108319-AA4EF4EC-7958-4F64-85D9-D6A09A567438Q35556993-475671DA-8360-4DFA-BF22-336DC8FDF0D2Q35593032-8AB31891-7F4D-476F-9F70-F335C0071566Q35877511-02BDFC14-798E-4316-8C01-782AE958E7DEQ36150385-ED6E85A7-5F45-4049-9D34-B361D014C3EEQ36187860-142693B0-C650-4790-A3AD-0A81E188B6BBQ36312098-6D1DEDB2-ACBA-4A2E-BF39-28D2C61FF119Q36544611-8FD28EF4-4B4D-4120-9CF0-52852AF81717Q36726756-2BD553DA-ED21-4689-99BB-5299ED02C9F7Q36733152-B7E4861E-15B1-469C-AD99-878898724F66Q36750620-0CB67853-2036-4828-852C-87529EC563D7Q36764462-BB1B623C-6F7B-45B1-80C1-7B0D7729AF75Q36906172-49B51B87-C526-4A8B-91BE-2042A8B376D2Q37114695-FFCF191F-04E4-46DF-B8DD-9251EC9E0E82Q37682275-C5ABF25E-EAF1-42F6-9081-5A9D67DC583AQ38351614-2E0813D2-217C-416D-8FC8-07203F43F4F6
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Vladimir I Kashuba
@nl
Vladimir I Kashuba
@sl
Vladimir I. Kashuba
@es
Volodymyr Kashuba
@en
Wolodymyr Kaschuba
@de
Владимир Иванович Кашуба
@ru
Володимир Іванович Кашуба
@uk
type
label
Vladimir I Kashuba
@nl
Vladimir I Kashuba
@sl
Vladimir I. Kashuba
@es
Volodymyr Kashuba
@en
Wolodymyr Kaschuba
@de
Владимир Иванович Кашуба
@ru
Володимир Іванович Кашуба
@uk
altLabel
Vladimir I. Kashuba
@en
Vladimir Ivanovich Kashuba
@en
Vladimir Kashuba
@de
Vladimir Kashuba
@en
Volodymyr Ivanovych Kashuba
@en
Wladimir Iwanowitsch Kaschuba
@de
Wladimir Kashuba
@de
Wolodymyr Iwanowytsch Kaschuba
@de
prefLabel
Vladimir I Kashuba
@nl
Vladimir I Kashuba
@sl
Vladimir I. Kashuba
@es
Volodymyr Kashuba
@en
Wolodymyr Kaschuba
@de
Владимир Иванович Кашуба
@ru
Володимир Іванович Кашуба
@uk
P1053
N-3732-2017
P106
P1153
34770221200
P21
P31
P3829
P496
0000-0001-9416-8282