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Andrew J. Watson
Researcher at University of Exeter
Publications - 531
Citations - 38911
Andrew J. Watson is an academic researcher from University of Exeter. The author has contributed to research in topics: Blastocyst & Embryonic stem cell. The author has an hindex of 88, co-authored 497 publications receiving 34512 citations. Previous affiliations of Andrew J. Watson include Mansfield University of Pennsylvania & Plymouth Marine Laboratory.
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IGF paracrine and autocrine interactions between conceptus and oviduct
TL;DR: It is demonstrated that pre-attachment bovine and ovine embryos express mRNAs encoding a number of growth factor ligand and receptor genes including all members of the IGF ligand And receptor family throughout this developmental interval.
NEW RESEARCH HORIZON Genomic RNA profiling and the programme controlling preimplantation mammalian development
TL;DR: In this article, the basic mechanisms controlling compaction, lineage specification, and blastocyst formation are defined, and new levels of regulation are emerging and greater insight into the roles played by RNA-binding proteins and miRNAs is required.
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Methanesulphonic acid, dimethyl sulphoxide and dimethyl sulphone in aerosols
TL;DR: Aerosol data collected between July 1985 and July 1987 are analyzed both in terms of their back trajectories, and variation with time as discussed by the authors, which suggest that NO3 and NSSS are anthropogenic in origin while DMSO2 appears to have a maritime source.
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A summer-time sink for atmospheric carbon dioxide in the Southern Ocean between 88"W and 80"E
J. E. Robertson,Andrew J. Watson +1 more
TL;DR: In this paper, surface water dissolved carbon dioxide was measured from two cruises in the Southern Ocean from 88°W (Bellingshausen Sea) to 80°E (Princess Elizabeth Trough) with a number of observations close to the ice edge.
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Reprogramming of fibroblast nuclei after transfer into bovine oocytes.
Paul A. De Sousa,Quinton A. Winger,Jonathan R. Hill,Karen Jones,Andrew J. Watson,Mark E. Westhusin +5 more
TL;DR: The extent to which blastocyst stage-specific mRNA expression would be conserved in bovine embryos produced by nuclear transfer using fetal fibroblasts as nuclei donors is characterized to provide information that can be used to improve the efficiency of cloning animals by nuclear transplantation.