about
A genome-wide association study to detect QTL for commercially important traits in Swiss Large White boarsGene regulation of intestinal porcine epithelial cells IPEC-J2 is dependent on the site of deoxynivalenol toxicological actionSex-Specific Muscular Maturation Responses Following Prenatal Exposure to Methylation-Related Micronutrients in PigsMethylating micronutrient supplementation during pregnancy influences foetal hepatic gene expression and IGF signalling and increases foetal weight.Gene expression profiling of porcine mammary epithelial cells after challenge with Escherichia coli and Staphylococcus aureus in vitroA Natural Mutation in Helix 5 of the Ligand Binding Domain of Glucocorticoid Receptor Enhances Receptor-Ligand InteractionExpression of homeobox-containing genes in cDNA libraries derived from cattle oocytes and preimplantation stage embryo.Stage-specific expressed sequence tags obtained during preimplantation bovine development by differential display RT-PCR and suppression subtractive hybridization.A source for expression profiling in single preimplantation bovine embryos.Mapping of ESTs derived from pre-implantation stage cattle embryos to allocate 16 new additions to the ordered comparative map of cattle and human.Quantitative expression analysis of blastocyst-derived gene transcripts in preimplantation developmental stages of in vitro-produced bovine embryos using real-time polymerase chain reaction technology.QTL for microstructural and biophysical muscle properties and body composition in pigs.Generation of an improved cytogenetic and comparative map of Bos taurus chromosome BTA27.Identification of genes differentially expressed during prenatal development of skeletal muscle in two pig breeds differing in muscularityQTL region-specific microarrays reveal differential expression of positional candidate genes of signaling pathways associated with the liability for the inverted teat defect.Trait correlated expression combined with expression QTL analysis reveals biological pathways and candidate genes affecting water holding capacity of muscle.QTL for traits related to humoral immune response estimated from data of a porcine F2 resource population.Porcine muscle sensory attributes associate with major changes in gene networks involving CAPZB, ANKRD1, and CTBP2.Dual effect of a single nucleotide polymorphism in the first intron of the porcine secreted phosphoprotein 1 gene: allele-specific binding of C/EBP beta and activation of aberrant splicing.Expression quantitative trait loci analysis of genes in porcine muscle by quantitative real-time RT-PCR compared to microarray data.Association of HPA axis-related genetic variation with stress reactivity and aggressive behaviour in pigsIdentification of expression QTL (eQTL) of genes expressed in porcine M. longissimus dorsi and associated with meat quality traitsGenome-wide association analysis and functional annotation of positional candidate genes for feed conversion efficiency and growth rate in pigs.The three-way relationship of polymorphisms of porcine genes encoding terminal complement components, their differential expression, and health-related phenotypesA high protein diet during pregnancy affects hepatic gene expression of energy sensing pathways along ontogenesis in a porcine model.Microarray-based transcriptional profiling of Eimeria bovis-infected bovine endothelial host cellsDifferential mRNA expression of genes in the porcine adrenal gland associated with psychosocial stress.A low protein diet during pregnancy provokes a lasting shift of hepatic expression of genes related to cell cycle throughout ontogenesis in a porcine model.A gestational high protein diet affects the abundance of muscle transcripts related to cell cycle regulation throughout development in porcine progeny.Gene expression analysis of mammary tissue during fetal bud formation and growth in two pig breeds--indications of prenatal initiation of postnatal phenotypic differencesGene expression and DNA-methylation of bovine pretransfer endometrium depending on its receptivity after in vitro-produced embryo transfer.A substitution in the ligand binding domain of the porcine glucocorticoid receptor affects activity of the adrenal gland.Bovine NALP5, NALP8, and NALP9 genes: assignment to a QTL region and the expression in adult tissues, oocytes, and preimplantation embryos.Flexible and efficient genome tiling design with penalized uniqueness scoreTranscriptional responses of PBMC in psychosocially stressed animals indicate an alerting of the immune system in female but not in castrated male pigs.Transcriptomic response of porcine PBMCs to vaccination with tetanus toxoid as a model antigenQuantitative trait loci analysis for leg weakness-related traits in a Duroc × Pietrain crossbred populationCorrelated mRNAs and miRNAs from co-expression and regulatory networks affect porcine muscle and finally meat properties.The fight-or-flight response is associated with PBMC expression profiles related to immune defence and recovery in swineIdentification of common regulators of genes in co-expression networks affecting muscle and meat properties.
P50
Q27315893-98192183-D9BC-4A8E-A843-E80964C11194Q28482230-0CCD1F6D-6F5D-481E-A8F0-B9C216A3116EQ30313528-A1CF65AA-1D79-4634-9888-164BD6322371Q30316382-232A6043-3C3D-4E9C-A8F0-AF3FD0CADEECQ30316573-58186B66-CB1B-4C7B-929F-037EE2DD4D32Q30394066-FD212325-6F16-4933-8F80-1015E07BE68DQ30665599-D6D24D0F-8BB2-4D24-98A0-F6D63DBF8E96Q30871676-1880B89F-3FC2-4EF6-987D-F045BCBB1E67Q31063607-75EED9E1-04D2-4852-A79E-5A1A0A74781CQ33196134-2CB896C3-37EB-468E-92CE-5555A2A3195FQ33212433-6C8C588B-58E4-4900-8096-96FABFCB3813Q33235949-F79C401F-5F94-44B0-B829-3A641DC14E0EQ33268314-CA36E97C-85F1-4339-BE32-104195A349EFQ33301044-7E5761B9-C887-4A2C-8482-32DC85BEDD9DQ33353741-2E76AB74-CFC1-4904-B18B-AD5DE1F6B981Q33356807-4A674546-A603-4002-808C-32EBCC51F225Q33458828-25EC01F6-8096-411B-B2F4-A09E70E30EF6Q33481721-E98511D8-5A46-4E49-A2CD-E16DF245705BQ33511672-4087B104-82D4-4B31-AB22-95D53DF06A76Q33530457-0EFC7822-FE53-49E9-A385-84CF417B8A18Q33652935-98215DBC-0008-4EB0-9EBB-019EA9C514DCQ33720007-A583A87B-D943-4BBD-A585-F68665AC3F31Q33788144-E7C183A4-50BE-46A3-AE6F-A5A803E2202AQ33924332-6AFB3E55-CF6D-4265-8DD8-7F1CE94B3E11Q33971079-7886824B-AF50-414E-816E-DD0CFA5D483CQ34062224-B9BD727C-A7A1-450F-87FB-B5C846AEE522Q34160780-5583B3C5-52BD-480A-81CC-90C29E25EFB6Q34198253-374C53F0-40D9-4B19-A649-E41D5C4AB44CQ34230188-465A26BB-A0CA-411D-ACA5-0219A24AE75AQ34248286-1C6A8BE8-7478-40B8-99A2-A5383392BF32Q34404719-DEB4EF1F-7913-4A36-9519-F6779F4F935EQ34429274-102F0DE0-4521-42A2-8707-37E53F70B175Q34474386-A44CA340-8756-4009-B47F-7A61042A341FQ34502500-4EC09926-5B47-42FF-A4E6-60F6FD1A5408Q34517681-E45C77AF-3FF8-465C-BA12-802530A38288Q34639206-16FFEB5C-EE3B-4B5B-938F-CA482B3D3D7CQ34769899-BB581C18-687C-4A61-B047-7F1870B85A88Q34894895-68BC8638-F933-4F64-8FBD-4EB7E7F20E07Q35203421-7B9D8EC3-96C7-4210-992E-3E5A95424063Q35416341-855A287E-7847-41A7-B646-6A7946F6AC45
P50
description
hulumtues
@sq
moleculair bioloog
@nl
researcher
@en
ricercatore
@it
հետազոտող
@hy
name
Klaus Wimmers
@ast
Klaus Wimmers
@en
Klaus Wimmers
@es
Klaus Wimmers
@nl
Klaus Wimmers
@sl
type
label
Klaus Wimmers
@ast
Klaus Wimmers
@en
Klaus Wimmers
@es
Klaus Wimmers
@nl
Klaus Wimmers
@sl
prefLabel
Klaus Wimmers
@ast
Klaus Wimmers
@en
Klaus Wimmers
@es
Klaus Wimmers
@nl
Klaus Wimmers
@sl
P227
P1153
56275131400
P21
P214
107145304971878611411
P227
1126255904
P31
P496
0000-0002-9523-6790
P735
P7859
viaf-107145304971878611411