P S Schnable
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Explore the profile of P S Schnable including associated specialties, affiliations and a list of published articles.
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26
Citations
1115
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Recent Articles
1.
Yanez J, Naswa S, Lopez M, Bassini L, Correa K, Gilbey J, et al.
Mol Ecol Resour
. 2016 Feb;
16(4):1002-11.
PMID: 26849107
A considerable number of single nucleotide polymorphisms (SNPs) are required to elucidate genotype-phenotype associations and determine the molecular basis of important traits. In this work, we carried out de novo...
2.
Wise R, Schnable P
Theor Appl Genet
. 2013 Nov;
88(6-7):785-95.
PMID: 24186179
There are three major groups of cytoplasmic male-sterile cytoplasms in maize; C (Charrua), S (USDA), and T (Texas). These cytoplasms can be classified by the unique nuclear genes that suppress...
3.
Ronin Y, Mester D, Minkov D, Belotserkovski R, Jackson B, Schnable P, et al.
G3 (Bethesda)
. 2012 Jun;
2(5):537-49.
PMID: 22670224
Numerous mapping projects conducted on different species have generated an abundance of mapping data. Consequently, many multilocus maps have been constructed using diverse mapping populations and marker sets for the...
4.
Soltis D, Buggs R, Barbazuk W, Schnable P, Soltis P
Cold Spring Harb Symp Quant Biol
. 2009 Aug;
74:215-23.
PMID: 19687140
Multiple origins of the same polyploid species pose the question: Does evolution repeat itself in these independently formed lineages? Tragopogon is a unique evolutionary model for the study of recent...
5.
Kalyanaraman A, Aluru S, Schnable P
Comput Syst Bioinformatics Conf
. 2007 Mar;
:167-78.
PMID: 17369635
The abundance of repeat elements in the maize genome complicates its assembly. Retrotransposons alone are estimated to constitute at least 50% of the genome. In this paper, we introduce a...
6.
Ding J, Viswanathan K, Berleant D, Hughes L, Wurtele E, Ashlock D, et al.
Bioinformatics
. 2005 Mar;
21(10):2560-2.
PMID: 15769838
Unlabelled: PathBinderH allows users to make queries that retrieve sentences and the abstracts containing them from PubMed. Another aspect of PathBinderH is that users can specify biological taxa in order...
7.
Liu F, Cui X, Horner H, Weiner H, Schnable P
Plant Cell
. 2001 May;
13(5):1063-78.
PMID: 11340182
Some plant cytoplasms express novel mitochondrial genes that cause male sterility. Nuclear genes that disrupt the accumulation of the corresponding mitochondrial gene products can restore fertility to such plants. The...
8.
Nikolau B, Oliver D, Schnable P, Wurtele E
Biochem Soc Trans
. 2001 Feb;
28(6):591-3.
PMID: 11171136
We have characterized the expression of potential acetyl-CoA-generating genes (acetyl-CoA synthetase, pyruvate decarboxylase, acetaldehyde dehydrogenase, plastidic pyruvate dehydrogenase complex and ATP-citrate lyase), and compared these with the expression of acetyl-CoA-metabolizing...
9.
Wise R, Pei D, Dill C, Schnable P
J Hered
. 1999 Jun;
90(3):380-5.
PMID: 10355122
Cytoplasmic male sterility (CMS) systems have been useful in the production of hybrid seed in a number of crops. The Texas or T-cytoplasmic male-sterile (cms-T) system was used extensively in...
10.
Schnable P, Hsia A, Nikolau B
Curr Opin Plant Biol
. 1999 Mar;
1(2):123-9.
PMID: 10066571
Meiotic recombination generates novel allelic arrays on chromosomes. Recent experiments have revealed an extraordinarily nonrandom distribution of recombination breakpoints along the lengths of plant chromosomes; for example, recombination breakpoints often...