Stephen Kemp
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Explore the profile of Stephen Kemp including associated specialties, affiliations and a list of published articles.
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Articles
22
Citations
464
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Recent Articles
1.
Kalds P, Huang S, Zhou S, Xi S, Fang Y, Gao Y, et al.
J Genet Genomics
. 2023 Jul;
50(12):1022-1025.
PMID: 37516349
No abstract available.
2.
Li C, Wu Y, Chen B, Cai Y, Guo J, Leonard A, et al.
Mol Biol Evol
. 2022 Nov;
39(12).
PMID: 36382357
Understanding the genetic mechanism of how animals adapt to extreme conditions is fundamental to determine the relationship between molecular evolution and changing environments. Goat is one of the first domesticated...
3.
Nabulindo N, Nguhiu-Mwangi J, Kipyegon A, Ogugo M, Muteti C, Christian T, et al.
Front Vet Sci
. 2022 Aug;
9:894075.
PMID: 35928111
The undifferentiated spermatogonial population in mammalian testes contains a spermatogonial stem cell (SSC) population that can regenerate continual spermatogenesis following transplantation. This capacity has the potential to be exploited as...
4.
Nakami W, Nguhiu-Mwangi J, Kipyegon A, Ogugo M, Muteti C, Kemp S
Stem Cells Cloning
. 2022 May;
15:11-20.
PMID: 35592658
Introduction: Spermatogonial stem cells (SSC), also referred to as undifferentiated spermatogonia, are the germline stem cells responsible for continuous spermatogenesis throughout a male's life. They are, therefore, an ideal target...
5.
Nakami W, Kipyegon A, Nguhiu-Mwangi J, Tiambo C, Kemp S
Vet World
. 2022 Feb;
14(12):3235-3248.
PMID: 35153418
Background And Aim: Spermatogonial stem cells (SSCs) have previously been isolated from animals' testes, cultured , and successfully transplanted into compatible recipients. The SSC unique characteristic has potential for exploitation...
6.
Kim K, Kwon T, Dessie T, Yoo D, Mwai O, Jang J, et al.
Nat Genet
. 2020 Sep;
52(10):1099-1110.
PMID: 32989325
Cattle pastoralism plays a central role in human livelihood in Africa. However, the genetic history of its success remains unknown. Here, through whole-genome sequence analysis of 172 indigenous African cattle...
7.
Taye M, Lee W, Jeon S, Yoon J, Dessie T, Hanotte O, et al.
Mamm Genome
. 2017 Sep;
28(11-12):528-541.
PMID: 28905131
Since domestication, the genome landscape of cattle has been changing due to natural and artificial selection forces resulting in several general and specialized cattle breeds of the world. Identifying genomic...
8.
Taye M, Lee W, Caetano-Anolles K, Dessie T, Hanotte O, Mwai O, et al.
Anim Sci J
. 2017 Jul;
88(12):1889-1901.
PMID: 28748670
As African indigenous cattle evolved in a hot tropical climate, they have developed an inherent thermotolerance; survival mechanisms include a light-colored and shiny coat, increased sweating, and cellular and molecular...
9.
Kim S, Ka S, Ha J, Kim J, Yoo D, Kim K, et al.
BMC Genomics
. 2017 May;
18(1):371.
PMID: 28499406
Background: Indigenous cattle in Africa have adapted to various local environments to acquire superior phenotypes that enhance their survival under harsh conditions. While many studies investigated the adaptation of overall...
10.
Kim J, Hanotte O, Mwai O, Dessie T, Bashir S, Diallo B, et al.
Genome Biol
. 2017 Feb;
18(1):34.
PMID: 28219390
Background: The history of African indigenous cattle and their adaptation to environmental and human selection pressure is at the root of their remarkable diversity. Characterization of this diversity is an...