Jamie Sherman
Overview
Explore the profile of Jamie Sherman including associated specialties, affiliations and a list of published articles.
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10
Citations
193
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Recent Articles
1.
Alptekin B, Erfatpour M, Mangel D, Pauli D, Blake T, Turner H, et al.
Mol Breed
. 2023 Jun;
42(10):59.
PMID: 37313013
Supplementary Information: The online version contains supplementary material available at 10.1007/s11032-022-01331-7.
2.
Viana M, Chen J, Knijnenburg T, Vasan R, Yan C, Arakaki J, et al.
Nature
. 2023 Jan;
613(7943):345-354.
PMID: 36599983
Understanding how a subset of expressed genes dictates cellular phenotype is a considerable challenge owing to the large numbers of molecules involved, their combinatorics and the plethora of cellular behaviours...
3.
Sallam A, Smith K, Hu G, Sherman J, Baenziger P, Wiersma J, et al.
Front Plant Sci
. 2022 Jan;
12:800284.
PMID: 34975991
Climate changes leading to higher summer temperatures can adversely affect cool season crops like spring barley. In the Upper Midwest region of the United States, one option for escaping this...
4.
Alptekin B, Mangel D, Pauli D, Blake T, Lachowiec J, Hoogland T, et al.
Theor Appl Genet
. 2020 Oct;
134(1):351-366.
PMID: 33084930
Two key barley genes independently control anthesis and senescence timing, enabling the manipulation of grain fill duration, grain size/plumpness, and grain protein concentration. Plant developmental processes such as flowering and...
5.
Jordan K, Wang S, He F, Chao S, Lun Y, Paux E, et al.
Plant J
. 2018 Jun;
95(6):1039-1054.
PMID: 29952048
Recombination affects the fate of alleles in populations by imposing constraints on the reshuffling of genetic information. Understanding the genetic basis of these constraints is critical for manipulating the recombination...
6.
Sherman J, Molloy M, Burlingame A
Proteomics
. 2012 May;
12(8):1147-50.
PMID: 22577016
Computationally aided protein identification of mass spectrometry (MS) data has been a challenge for the proteomic community since the field's inception. As the community attempts to address challenges such as...
7.
McKay M, Sherman J, Laver M, Baker M, Clarke S, Molloy M
Proteomics Clin Appl
. 2010 Dec;
1(12):1570-81.
PMID: 21136656
There is wide interpatient variability in toxicity to chemotherapeutic drugs and a lack of routine clinical tests for prospectively identifying patients at risk of developing toxicity from chemotherapy. An empirically...
8.
Sherman J, McKay M, Ashman K, Molloy M
Mol Cell Proteomics
. 2009 Jun;
8(9):2051-62.
PMID: 19556279
The growing use of selected reaction monitoring (SRM) mass spectrometry in proteomic analyses led us to investigate how to identify peptides by SRM using only a minimal number of fragment...
9.
Sherman J, McKay M, Ashman K, Molloy M
Proteomics
. 2009 Mar;
9(5):1120-3.
PMID: 19253278
Selected reaction monitoring (SRM) MS is proving to be a popular approach for targeted quantitative proteomics. The use of proteotypic peptides as candidates for SRM analysis is a wise first...
10.
Song X, Bandow J, Sherman J, Baker J, Brown P, McDowell M, et al.
J Proteome Res
. 2008 Jun;
7(7):2952-8.
PMID: 18549257
There is considerable interest in using mass spectrometry for biomarker discovery in human blood plasma. We investigated aspects of experimental design for large studies that require analysis of multiple sample...