about
Increasing persistency in lay and stabilising egg quality in longer laying cycles. What are the challenges?Gallin; an antimicrobial peptide member of a new avian defensin family, the ovodefensins, has been subject to recent gene duplication.Regulation of Agouti-Related Protein and Pro-Opiomelanocortin Gene Expression in the Avian Arcuate NucleusGenetic loci inherited from hens lacking maternal behaviour both inhibit and paradoxically promote this behaviourCharacterization of the chicken preprogonadotrophin-releasing hormone-I gene.Evidence for alternative splicing of the chicken vasoactive intestinal polypeptide gene transcript.Decreased expression of the satiety signal receptor CCKAR is responsible for increased growth and body weight during the domestication of chickens.Hypothalamic Agouti-Related Peptide mRNA is Elevated During Natural and Stress-Induced AnorexiaThe chicken type III GnRH receptor homologue is predominantly expressed in the pituitary, and exhibits similar ligand selectivity to the type I receptor.Third Report on Chicken Genes and Chromosomes 2015.An expression QTL of closely linked candidate genes affects pH of meat in chickensRegulation of the avian central melanocortin system and the role of leptin.Bone mineral density QTL at sexual maturity and end of lay.Using Targeted Resequencing for Identification of Candidate Genes and SNPs for a QTL Affecting the pH Value of Chicken MeatPancreatic PYY but not PPY expression is responsive to short-term nutritional state and the pancreas constitutes the major site of PYY mRNA expression in chickens.Direct functional consequences of ZRS enhancer mutation combine with secondary long range SHH signalling effects to cause preaxial polydactyly.Chronic stress alters glucocorticoid receptor and mineralocorticoid receptor mRNA expression in the European starling (Sturnus vulgaris) brain.Acceleration of maturation of FSH and LH responses to photostimulation in prepubertal domestic hens by oestrogen.Photoperiodic response curves for plasma LH concentrations and age at first egg in female broiler breeders.Hypothalamic agouti-related protein expression is affected by both acute and chronic experience of food restriction and re-feeding in chickens.Comparative biology and expression of TENP, an egg protein related to the bacterial permeability-increasing family of proteins.Understanding avian egg cuticle formation in the oviduct: a study of its origin and deposition.Ovodefensins, an Oviduct-Specific Antimicrobial Gene Family, Have Evolved in Birds and Reptiles to Protect the Egg by Both Sequence and Intra-Six-Cysteine Sequence Motif Spacing.Molecular cloning and tissue distribution of a short form chicken leptin receptor mRNA.Food restriction reduces neurogenesis in the avian hippocampal formation.Gastrointestinal distribution of chicken gastrin-cholecystokinin family transcript expression and response to short-term nutritive state.Does gonadotrophin inhibiting hormone (GnIH) play a functional role in avian reproduction?A study of association between genetic markers in candidate genes and reproductive traits in one generation of a commercial broiler breeder hen population.Genetic variation in eggshell crystal size and orientation is large and these traits are correlated with shell thickness and are associated with eggshell matrix protein markers.Overlap of quantitative trait loci for early growth rate, and for body weight and age at onset of sexual maturity in chickens.Diurnal and photoperiodic changes in thyrotrophin-stimulating hormone β expression and associated regulation of deiodinase enzymes (DIO2, DIO3) in the female juvenile chicken hypothalamus.Mapping of the leptin receptor gene (LEPR) to chicken chromosome 8.Orexin in the chicken hypothalamus: immunocytochemical localisation and comparison of mRNA concentrations during the day and night, and after chronic food restriction.Cellular localization of neuropeptide Y mRNA and peptide in the brain of the Japanese quail and domestic chicken.Photo-induction of hypothalamic gonadotrophin releasing hormone-I mRNA in the domestic chicken: a role for oestrogen?Early expression of chicken gonadotropin-releasing hormone-1 in the developing chick.Changes in basal hypothalamic chicken gonadotropin-releasing hormone-I and vasoactive intestinal polypeptide associated with a photo-induced cycle in gonadal maturation and prolactin secretion in intact and thyroidectomized starlings (Sturnus vulgarGonadotrophin inhibitory hormone depresses gonadotrophin alpha and follicle-stimulating hormone beta subunit expression in the pituitary of the domestic chicken.Influence of physical activity on tibial bone material properties in laying hens.Probability of an egg cracking during packing can be predicted using a simple non-destructive acoustic test.
P50
Q30378435-4E9A950F-62A2-4F9C-B9AF-FD35B264EA84Q33540348-6FFEFB11-D0FE-4A48-9BA9-0C185FA7CB63Q33559157-31B84E62-9D6C-4D0C-BDED-C04715B24C51Q36419600-138EA005-53BE-4A7F-8060-C7519AAD0653Q36721079-62A926FC-2D74-4095-9276-B018B7C40A44Q36789455-87850C7D-317F-4455-A422-1F5C72167160Q36836314-C77C7A26-39CC-466F-8FE4-9AD530BA1952Q37152275-FE84F4D0-C5A9-4F19-B622-E2DE9792712EQ37225618-DE725255-59B3-4321-9D46-8E18C0200CF4Q37432110-3C8AC814-3F06-4B8E-83E9-BECB2758CAC2Q37628808-B601AD42-934C-406D-AD6E-5AE4E0B8D367Q38316438-DAE24029-1242-4925-B666-59943C08EF31Q40796268-F04B0A6E-EBAB-4394-B50A-1382F2702EB3Q41380156-CF57CBAF-C168-4665-8835-BD6FED66BA03Q41562984-6F66AC12-5882-4473-9456-44FCDA2ED593Q41880247-22B155F3-5BAE-4BC5-AA18-744E0ABB0929Q43290740-85BD9B69-B8FF-42B1-BB74-4DD0F05040D7Q44529952-35AAACEE-C031-43FE-8C92-4F98AB701994Q44619736-15578545-931E-42EF-B86D-E32524EC7F54Q45238194-544E9462-0F6E-4AC1-B420-CC3338BF1246Q45740133-9FE9E745-7AC6-4C94-8730-D0BF061E8860Q46313755-B1760705-82E7-47FC-A54D-2017FD91C283Q46729068-F3B1267F-74E4-4E7E-B9D9-B16245FCB67FQ46986243-B909AF60-7A4A-4D60-9F20-A2B4DB41A088Q47096586-F58F8FFB-1D95-47EC-BD4A-7039BA4A82C7Q47107225-E9E2DF0E-D246-4045-B7D4-FA75218226AEQ47277571-0182A2E5-DB50-4FE2-ACF2-B2C6A01FC04DQ47315584-C63D69EB-46D1-48B6-A7D8-86C7A990909DQ47316063-0617AC7F-6A70-49A8-AD1D-5742F84ACEB8Q47399939-944CCFC8-C3A9-4FDE-BE34-41B078161A94Q47585975-900C0763-79B9-4CF5-81C3-B977F79DDD33Q47812972-D7590A1B-784F-4219-B77B-4CB3E2C71BDDQ47901224-57F6D12A-DB50-466E-9EA4-A97D0B8CBE01Q47949151-623989CC-F2D7-472C-A0ED-D38F1751B081Q48215835-8FE3568D-24F4-449C-A6CF-553B4FF62F89Q48234917-E27E77C0-4B6A-46DD-849F-C50D1109585BQ48546977-9A7BA4A7-6EF9-4869-A84C-F6665710491BQ49119428-1BA75F7D-0A5D-4FC4-AD93-CA3F604F1C34Q50133102-6C418A52-07CE-4494-AB9E-16E62313F81FQ51146930-999D72A1-BD7E-4771-A16F-C38DC8FB6BC4
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Ian C Dunn
@ast
Ian C Dunn
@en
Ian C Dunn
@es
Ian C Dunn
@nl
Ian C Dunn
@sl
type
label
Ian C Dunn
@ast
Ian C Dunn
@en
Ian C Dunn
@es
Ian C Dunn
@nl
Ian C Dunn
@sl
prefLabel
Ian C Dunn
@ast
Ian C Dunn
@en
Ian C Dunn
@es
Ian C Dunn
@nl
Ian C Dunn
@sl
P106
P31
P496
0000-0003-3630-0120