Mak A Saito
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Explore the profile of Mak A Saito including associated specialties, affiliations and a list of published articles.
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79
Citations
2303
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Recent Articles
1.
Saito M, Saito M, McIlvin M
bioRxiv
. 2025 Jan;
PMID: 39868235
is a major contributor to human infections and is widely distributed in the environment. Its ability for growth under aerobic and anaerobic conditions provides adaptability to environmental changes and to...
2.
Meyer A, Meyer A, McIlvin M, Lopez P, Searle B, Saito M
bioRxiv
. 2025 Jan;
PMID: 39868216
Zinc is central to the function of many proteins, yet the mechanisms of zinc homeostasis and their interplay with other cellular systems remain underexplored. In this study, we employ data-dependent...
3.
Rajczewski A, Blakeley-Ruiz J, Meyer A, Vintila S, McIlvin M, Van Den Bossche T, et al.
bioRxiv
. 2024 Sep;
PMID: 39345414
Mass spectrometry (MS)-based metaproteomics is used to identify and quantify proteins in microbiome samples, with the frequently used methodology being Data-Dependent Acquisition mass spectrometry (DDA-MS). However, DDA-MS is limited in...
4.
Cohen N, Krinos A, Kell R, Chmiel R, Moran D, McIlvin M, et al.
Nat Commun
. 2024 Aug;
15(1):7325.
PMID: 39183190
Microeukaryotes are key contributors to marine carbon cycling. Their physiology, ecology, and interactions with the chemical environment are poorly understood in offshore ecosystems, and especially in the deep ocean. Using...
5.
Via C, Grauso L, McManus K, Kirk R, Kim A, Webb E, et al.
Environ Sci Technol
. 2024 May;
58(22):9525-9535.
PMID: 38758591
While the ecological role that sp. play in nitrogen fixation has been widely studied, little information is available on potential specialized metabolites that are associated with blooms and standing stock...
6.
Garcia N, Du M, Guindani M, McIlvin M, Moran D, Saito M, et al.
ISME J
. 2024 Mar;
18(1).
PMID: 38513256
Recent studies have demonstrated regional differences in marine ecosystem C:N:P with implications for carbon and nutrient cycles. Due to strong co-variance, temperature and nutrient stress explain variability in C:N:P equally...
7.
Schiksnis C, Xu M, Saito M, McIlvin M, Moran D, Bian X, et al.
Front Microbiol
. 2024 Mar;
15:1323499.
PMID: 38444803
In many oceanic regions, anthropogenic warming will coincide with iron (Fe) limitation. Interactive effects between warming and Fe limitation on phytoplankton physiology and biochemical function are likely, as temperature and...
8.
Rao D, Fussy Z, Brisbin M, McIlvin M, Moran D, Allen A, et al.
Proc Natl Acad Sci U S A
. 2024 Feb;
121(6):e2204075121.
PMID: 38306482
Coastal Antarctic marine ecosystems are significant in carbon cycling because of their intense seasonal phytoplankton blooms. Southern Ocean algae are primarily limited by light and iron (Fe) and can be...
9.
Kell R, Subhas A, Schanke N, Lees L, Chmiel R, Rao D, et al.
bioRxiv
. 2023 Nov;
PMID: 37961643
Zinc (Zn) is a key micronutrient used by phytoplankton for carbon (C) acquisition, yet there have been few observations of its influence on natural oceanic phytoplankton populations. In this study,...
10.
Mars Brisbin M, Schofield A, McIlvin M, Krinos A, Alexander H, Saito M
ISME Commun
. 2023 Aug;
3(1):88.
PMID: 37626172
Many marine microbes require vitamin B (cobalamin) but are unable to synthesize it, necessitating reliance on other B-producing microbes. Thus, phytoplankton and bacterioplankton community dynamics can partially depend on the...