C Couldrey
Overview
Explore the profile of C Couldrey including associated specialties, affiliations and a list of published articles.
Author names and details appear as published. Due to indexing inconsistencies, multiple individuals may share a name, and a single author may have variations. MedLuna displays this data as publicly available, without modification or verification
Snapshot
Snapshot
Articles
13
Citations
310
Followers
0
Related Specialties
Related Specialties
Top 10 Co-Authors
Top 10 Co-Authors
Published In
Published In
Affiliations
Affiliations
Soon will be listed here.
Recent Articles
1.
Trebes H, Wang Y, Reynolds E, Tiplady K, Harland C, Lopdell T, et al.
J Dairy Sci
. 2023 Aug;
106(11):7799-7815.
PMID: 37562645
Chromosome X is often excluded from bovine genetic studies due to complications caused by the sex specific nature of the chromosome. As chromosome X is the second largest cattle chromosome...
2.
Kadri N, Zhang J, Oget-Ebrad C, Wang Y, Couldrey C, Spelman R, et al.
BMC Genomics
. 2022 Feb;
23(1):114.
PMID: 35144552
Background: Meiotic recombination plays an important role in reproduction and evolution. The individual global recombination rate (GRR), measured as the number of crossovers (CO) per gametes, is a complex trait...
3.
Johnson T, Keehan M, Harland C, Lopdell T, Spelman R, Davis S, et al.
J Dairy Sci
. 2019 Feb;
102(4):3254-3258.
PMID: 30712931
In cattle, the X chromosome accounts for approximately 3 and 6% of the genome in bulls and cows, respectively. In spite of the large size of this chromosome, very few...
4.
Johnson T, Eketone K, McNaughton L, Tiplady K, Voogt J, Sherlock R, et al.
J Dairy Sci
. 2018 Feb;
101(5):4650-4659.
PMID: 29454693
The genetic merit of a herd is a key determinant in productivity for dairy farmers. However, making breeding decisions to maximize the rate of genetic gain can be complex because...
5.
Couldrey C, Johnson T, Lopdell T, Zhang I, Littlejohn M, Keehan M, et al.
J Dairy Sci
. 2017 May;
100(7):5491-5500.
PMID: 28477999
X chromosome inactivation (XCI) is a process by which 1 of the 2 copies of the X chromosomes present in female mammals is inactivated. The transcriptional silencing of one X...
6.
Couldrey C, Keehan M, Johnson T, Tiplady K, Winkelman A, Littlejohn M, et al.
J Dairy Sci
. 2017 May;
100(7):5472-5478.
PMID: 28456410
Single nucleotide polymorphisms have been the DNA variant of choice for genomic prediction, largely because of the ease of single nucleotide polymorphism genotype collection. In contrast, structural variants (SV), which...
7.
Couldrey C, Brauning R, Henderson H, McEwan J
Anim Genet
. 2015 Feb;
46(2):185-9.
PMID: 25662407
The importance of maintaining DNA methylation patterns and faithful transmission of these patterns during cell division to ensure appropriate gene expression has been known for many decades now. It has...
8.
Kavanaugh C, Desai K, Calvo A, Brown P, Couldrey C, Lubet R, et al.
Transgenic Res
. 2003 Jan;
11(6):617-33.
PMID: 12509137
Breast cancer is a leading cause of cancer morbidity and mortality. Given that the majority of human breast cancers appear to be due to non-genetic factors, identifying agents and mechanisms...
9.
Couldrey C, Green J
Breast Cancer Res
. 2001 Mar;
2(5):321-3.
PMID: 11250723
An association between protein glycosylation and tumorigenesis has been recognized for over 10 years. Associations linking the importance of glycosylation events to tumor biology, especially the progression to metastatic disease,...
10.
Yoshidome K, Shibata M, Couldrey C, Korach K, Green J
Cancer Res
. 2001 Jan;
60(24):6901-10.
PMID: 11156389
Although several lines of epidemiological evidence suggest that estrogen exposure influences the incidence of breast cancer development, the mechanisms by which estrogen may stimulate the formation of breast cancer remain...