A
Abdul Baten
Researcher at AgResearch
Publications - 51
Citations - 869
Abdul Baten is an academic researcher from AgResearch. The author has contributed to research in topics: Genome & Comparative genomics. The author has an hindex of 13, co-authored 51 publications receiving 590 citations. Previous affiliations of Abdul Baten include University of Melbourne & Harry Perkins Institute of Medical Research.
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Journal ArticleDOI
Splice site identification using probabilistic parameters and SVM classification
TL;DR: This work proposed an effective pre-processing scheme for the SVM and applied it for the identification of splice sites, which shows a better classification accuracy and computational speed than some other more complex methods.
Journal ArticleDOI
Maternal components of RNA-directed DNA methylation are required for seed development in Brassica rapa
Jeffrey W. Grover,Timmy Kendall,Abdul Baten,Diane Burgess,Michael Freeling,Graham J.W. King,Rebecca A. Mosher +6 more
TL;DR: This work shows that, unlike Arabidopsis, mutations in the Pol IV-dependent small RNA pathway cause severe and specific reproductive defects in Brassica rapa, and proposes that recently outbreeding species such as B. rapa are key to understanding the role of RdDM during plant reproduction.
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Phosphorus remobilization from rice flag leaves during grain filling: an RNA-seq study
Kwanho Jeong,Abdul Baten,Daniel Le Waters,Omar Pantoja,Omar Pantoja,Cécile Julia,Matthias Wissuwa,Sigrid Heuer,Tobias Kretzschmar,Terry J. Rose +9 more
TL;DR: Test the hypothesis that a subset of genes involved in the P starvation response are involved in remobilization of P from flag leaves to developing grains by conducting RNA‐seq analysis of rice flag leaves during the preremobilization phase and when the leaves were acting as a P source.
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Complete chloroplast genome of Macadamia integrifolia confirms the position of the Gondwanan early-diverging eudicot family Proteaceae
TL;DR: The Macadamia chloroplast genome presented here is the first in the Proteaceae, and confirms the placement of this family with the morphologically divergent Plantanaceae and Nelumbonaceae in the basal eudicot order Proteales.
Journal ArticleDOI
Abundant expression of maternal siRNAs is a conserved feature of seed development.
Jeffrey W. Grover,Diane Burgess,Timmy Kendall,Abdul Baten,Suresh Pokhrel,Suresh Pokhrel,Graham J.W. King,Blake C. Meyers,Blake C. Meyers,Michael Freeling,Rebecca A. Mosher +10 more
TL;DR: It is demonstrated that seed development occurs under the influence of abundant maternal siRNAs that might be transported to, and function in, filial tissues and a similar pattern of 24-nt siRNA expression in diverse angiosperms despite rapid sequence evolution at siren loci.