Brett Lahner mainly focuses on Arabidopsis, Botany, Arabidopsis thaliana, Biochemistry and Shoot. His studies deal with areas such as Chromatin and Transcription as well as Arabidopsis. As a part of the same scientific study, he usually deals with the Botany, concentrating on Ionomics and frequently concerns with Computational biology, Functional genomics and Gene.
His study in Arabidopsis thaliana is interdisciplinary in nature, drawing from both Cultivar, Phosphate and Crop. His Biochemistry research includes elements of Astragalus bisulcatus and Cell biology. His Shoot research incorporates themes from Endodermis and Exodermis.
Brett Lahner mainly investigates Arabidopsis, Botany, Arabidopsis thaliana, Biochemistry and Mutant. His Arabidopsis study necessitates a more in-depth grasp of Genetics. His Botany study frequently links to adjacent areas such as Ionomics.
His Arabidopsis thaliana study incorporates themes from Thlaspi, Phosphate, Genetically modified organism and Plant physiology. His work on Saccharomyces cerevisiae, Vacuole and Transporter as part of general Biochemistry study is frequently linked to Selenate, therefore connecting diverse disciplines of science. His Mutant study combines topics from a wide range of disciplines, such as Chromosomal translocation and Cell biology.
Brett Lahner mostly deals with Quantitative trait locus, Botany, Arabidopsis thaliana, Arabidopsis and Ionomics. He combines subjects such as Rice grain, Plant biochemistry and Association mapping with his study of Quantitative trait locus. His Botany research is multidisciplinary, relying on both Soil contamination, Mutant and Chromosomal translocation.
The concepts of his Arabidopsis thaliana study are interwoven with issues in Gene duplication, Ploidy, Salinity and Genotype. His Arabidopsis research is under the purview of Biochemistry. His studies in Ionomics integrate themes in fields like Germplasm, Agronomy, Temperate climate, Genetic diversity and Breed.
His scientific interests lie mostly in Arabidopsis, Candidate gene, Single-nucleotide polymorphism, Arsenic and Brown rice. Biochemistry covers he research in Arabidopsis. The study incorporates disciplines such as Quantitative trait locus, Oryza sativa and Linkage disequilibrium in addition to Candidate gene.
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Ionomics and the Study of the Plant Ionome
David E. Salt;Ivan Baxter;Brett Lahner.
Annual Review of Plant Biology (2008)
Genomic scale profiling of nutrient and trace elements in Arabidopsis thaliana
Brett Lahner;Jiming Gong;Mehrzad Mahmoudian;Ellen L Smith.
Nature Biotechnology (2003)
The bHLH Transcription Factor POPEYE Regulates Response to Iron Deficiency in Arabidopsis Roots
Terri A. Long;Hironaka Tsukagoshi;Wolfgang Busch;Brett Lahner.
The Plant Cell (2010)
Mutations in Arabidopsis Yellow Stripe-Like1 and Yellow Stripe-Like3 Reveal Their Roles in Metal Ion Homeostasis and Loading of Metal Ions in Seeds
Brian M. Waters;Heng-Hsuan Chu;Raymond J. DiDonato;Louis A. Roberts.
Plant Physiology (2006)
A Coastal Cline in Sodium Accumulation in Arabidopsis thaliana Is Driven by Natural Variation of the Sodium Transporter AtHKT1;1
Ivan Baxter;Jessica N. Brazelton;Danni Yu;Yu S. Huang.
PLOS Genetics (2010)
Arabidopsis pdr2 reveals a phosphate‐sensitive checkpoint in root development
Carla A. Ticconi;Carla A. Delatorre;Brett Lahner;David E. Salt.
Plant Journal (2004)
Natural Variants of AtHKT1 Enhance Na+ Accumulation in Two Wild Populations of Arabidopsis
Ana Rus;Ivan Baxter;Balasubramaniam Muthukumar;Jeff Gustin.
PLOS Genetics (2005)
The Effect of Iron on the Primary Root Elongation of Arabidopsis during Phosphate Deficiency
James T. Ward;Brett Lahner;Elena Yakubova;David E. Salt.
Plant Physiology (2008)
The Ferroportin Metal Efflux Proteins Function in Iron and Cobalt Homeostasis in Arabidopsis
Joe Morrissey;Ivan R. Baxter;Joohyun Lee;Liangtao Li.
The Plant Cell (2009)
Root suberin forms an extracellular barrier that affects water relations and mineral nutrition in Arabidopsis.
Ivan Baxter;Prashant S. Hosmani;Ana Rus;Brett Lahner.
PLOS Genetics (2009)
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