about
Identification of a co-repressor that inhibits the transcriptional and growth-arrest activities of CCAAT/enhancer-binding protein alphaTFPI1 mediates resistance to doxorubicin in breast cancer cells by inducing a hypoxic-like responseLow dose antigen exposure for a finite period in newborn rats prevents induction of mucosal toleranceMolecular analyses of disease pathogenesis: application of bovine microarrays.Genomics-based molecular epidemiology of Campylobacter jejuni isolates from feedlot cattle and from people in Alberta, Canada.Modulation of B cell responses by Toll-like receptors.Biological roles of host defense peptides: lessons from transgenic animals and bioengineered tissues.Extended semen for artificial insemination in swine as a potential transmission mechanism for infectious Chlamydia suis.Porcine retinal cell line VIDO R1 and Chlamydia suis to modelize ocular chlamydiosis.Development of gut immunoglobulin A production in piglet in response to innate and environmental factors.Metabolism of activated T lymphocytes.The porcine innate immune system: an update.Evidence for a common mucosal immune system in the pig.Nuclear redistribution of TCERG1 is required for its ability to inhibit the transcriptional and anti-proliferative activities of C/EBPalpha.Bovine and human cathelicidin cationic host defense peptides similarly suppress transcriptional responses to bacterial lipopolysaccharide.Pivotal Advance: passively acquired membrane proteins alter the functional capacity of bovine polymorphonuclear cells.Response of immune response genes to adjuvants poly [di(sodium carboxylatoethylphenoxy)phosphazene] (PCEP), CpG oligodeoxynucleotide and emulsigen at intradermal injection site in pigs.Use of flow cytometry and PCR analysis to detect 5-carboxyfluoroscein-stained obligate intracellular bacteria Lawsonia intracellularis invasion of McCoy cells.A single, low dose oral antigen exposure in newborn piglets primes mucosal immunity if administered with CpG oligodeoxynucleotides and polyphosphazene adjuvants.The adjuvant PCEP induces recruitment of myeloid and lymphoid cells at the injection site and draining lymph node.Innate immune cocktail partially protects broilers against cellulitis and septicemia.PCPP (poly[di(carboxylatophenoxy)-phosphazene]) microparticles co-encapsulating ovalbumin and CpG oligo-deoxynucleotides are potent enhancers of antigen specific Th1 immune responses in mice.CD14+ cells are required for IL-12 response in bovine blood mononuclear cells activated with Toll-like receptor (TLR) 7 and TLR8 ligands.Molecular and Physiological Effects on the Small Intestine of Weaner Pigs Following Feeding with Deoxynivalenol-Contaminated Feed.A novel triple adjuvant formulation promotes strong, Th1-biased immune responses and significant antigen retention at the site of injection.Comparative analysis of innate immune responses following infection of newborn calves with bovine rotavirus and bovine coronavirus.Interferon-gamma and B-cell Activating Factor (BAFF) promote bovine B cell activation independent of TLR9 and T-cell signaling.Activation of adjuvant core response genes by the novel adjuvant PCEPB-cell activating factor (BAFF) promotes CpG ODN-induced B cell activation and proliferationEstablishment of fetal bovine intestinal epithelial cell cultures susceptible to bovine rotavirus infectionCharacterization of domains in C/EBPα that mediate its constitutive and cAMP-inducible activitiesDevelopment of flow cytometry based adherence assay for Neisseria gonorrhoeae using 5'-carboxyfluorosceinsuccidyl esterInnate immune response profiles in pigs injected with vaccine adjuvants polydi(sodium carboxylatoethylphenoxy)phosphazene (PCEP) and EmulsigenExperimental PCEP-Adjuvanted Swine Influenza H1N1 Vaccine Induced Strong Immune Responses but Did Not Protect Piglets against Heterologous H3N2 Virus Challenge
P50
Q28236939-1B091FA1-343B-492D-896D-C8198A47FEB2Q28539226-7FDFD693-CBC9-4D35-B309-1FDBE649716EQ34516644-93EC1B00-442A-4694-AF03-B72CB29E2DE7Q36088509-F496C284-856B-411E-BE9A-1942C60B2706Q37099596-492D9265-7F6D-4F95-BB95-1D6B60D8AE8BQ37786223-7D346D72-C64A-4D80-809F-CA1F6E11E67DQ37810793-DE20490F-7F00-47F3-8891-5D07E86DFCBEQ37836725-3FCCF270-AAFC-41CF-8367-93E5F4B2DB61Q37840129-2CD56FCE-0188-42D3-9EA6-5BA84392C2D5Q38175254-F541D1DF-9373-47D6-8248-3E0BE07EC64BQ38189903-662EBC2D-1184-4D80-A03B-0A729636AA42Q38202723-2AA0700C-DFCD-4832-8466-17538AC5E193Q38252984-63CB7893-FA51-4F62-97FB-745B2A4EB8BBQ39775266-A4C34D4A-548F-4B9C-B887-28330E0F2061Q40237762-9FAE30C4-9166-4425-A92E-09F2E79A981BQ40263653-C2AD159A-F244-4DCF-97CD-D5478E4FBE6BQ40642783-CBA84D80-84CA-486D-88CA-2F653A6CBC0EQ40684112-854B1E7B-1CF9-4E03-92A6-728B98888142Q41751528-C6B75A2A-B519-4A11-8968-83AF0613DCBEQ42222481-D533AA91-30DE-40DD-ABDC-51CD597CE050Q42275592-65A73124-50A2-47A5-8AE6-69E289FAE111Q43464015-28468B2B-C814-4BAF-8FA3-7D888B893CEDQ46370126-D958866B-3724-4F3F-8D36-E69F83F1D404Q48253457-AEDF93CF-5645-4C4C-81E7-AA4ED20D273CQ50557563-DE0F430D-3946-443C-AFE3-44BFF9F0C3D3Q53527587-A710169B-173E-4BE9-BDF6-3D5F12103824Q54328104-91160BAD-4515-40C5-9CDB-B45551DFD545Q57198392-7302E657-3161-4313-B2E9-7845F7294D74Q57198395-6B84392A-951C-40D0-BBDC-8CF8ED0B64C1Q57198400-78BC9B47-5BE8-48C4-93EE-859F0B5493C8Q57198404-A9A74952-FD63-4D9A-A95A-016B733FFE09Q64054094-EB56986D-9091-437A-AF33-C49BC7386330Q92454326-FFB16022-E185-4AB5-AD46-231982140A45Q95655347-DEBB944C-AB1B-4997-B5F3-1519BAB50C05
P50
description
hulumtuese
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Heather L Wilson
@nl
Heather L Wilson
@sl
Heather L. Wilson
@en
Heather L. Wilson
@es
type
label
Heather L Wilson
@nl
Heather L Wilson
@sl
Heather L. Wilson
@en
Heather L. Wilson
@es
prefLabel
Heather L Wilson
@nl
Heather L Wilson
@sl
Heather L. Wilson
@en
Heather L. Wilson
@es
P106
P1153
7402690708
P21
P31
P496
0000-0002-1261-0901