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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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Ouabain sensitivity and expression of Na/K‐ATPase α‐ and β‐subunit isoform genes during bovine early development
TL;DR: It is established that transcripts encoding multiple isoforms of both the α and β subunits of the Na/K‐ATPase are expressed throughout early bovine development and that bovines blastocysts display a greater sensitivity to ouabain than murine blastocytes.
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Diurnal variation in surface pCO2 and O2 at 60°N, 20°W in the North Atlantic
TL;DR: In this article, a method for rapid determination of the partial pressure of carbon dioxide at the sea surface is described, along with a pulsed oxygen electrode to monitor daily changes in surface pCO 2 and O 2 close to a drifting buoy deployed at approximately 59°N, 20°W.
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Modeling the response of the oceanic Si inventory to perturbation, and consequences for atmospheric CO2
TL;DR: In this article, the authors developed a description of the ocean carbon cycle, incorporating novel descriptions for the recycling of Si, both within the water column and in deep-sea sediments, and found that increased Si supply has the potential to make an important contribution to the decline in atmospheric xCO2 associated with the much slower transition from interglacial to full glacial conditions.
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Grain-size variations on a longitudinal dune and a barchan dune
TL;DR: The grain-size characteristics of the sand upon two dunes (a 40 m high longitudinal dune in the central Namib Desert and a 6.0 m high barchan in the Jafurah sand sea of Saudi Arabia) vary with position on the dunes as mentioned in this paper.
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Mouse preimplantation embryo responses to culture medium osmolarity include increased expression of CCM2 and p38 MAPK activation
TL;DR: These results define the expression of upstream activators of p38 MAPK during preimplantation development and indicate that embryo responses to hyperosmotic environments include elevation of CCM2 and activation of p37 mitogen-activated protein kinase.