1986 - Fellow of the American Association for the Advancement of Science (AAAS)
1958 - Fellow of the American Association for the Advancement of Science (AAAS)
Howard M. Goodman focuses on Molecular biology, Genetics, Gene, Arabidopsis and Mutant. His Molecular biology research incorporates elements of Nucleic acid sequence, Base pair, DNA, EcoRI and Transcription. In general Genetics study, his work on Locus, Cosmid, Ti plasmid and CAAT box often relates to the realm of Restriction fragment length polymorphism, thereby connecting several areas of interest.
In his research, Regulation of gene expression, Reporter gene and Genetic transfer is intimately related to Cell culture, which falls under the overarching field of Gene. His work carried out in the field of Arabidopsis brings together such families of science as Biliverdin, Arabidopsis thaliana and Genome. His Mutant research is multidisciplinary, incorporating elements of Transit Peptide, Green fluorescent protein and Heme.
Howard M. Goodman spends much of his time researching Gene, Molecular biology, Genetics, Arabidopsis and Biochemistry. His studies in Gene integrate themes in fields like Hormone and Insulin. His study looks at the relationship between Molecular biology and topics such as DNA, which overlap with Recombinant DNA.
When carried out as part of a general Genetics research project, his work on Nucleic acid sequence, Genome, Locus and Molecular cloning is frequently linked to work in Restriction fragment length polymorphism, therefore connecting diverse disciplines of study. The study incorporates disciplines such as Arabidopsis thaliana and Chloroplast in addition to Arabidopsis. His Gene expression research integrates issues from Regulation of gene expression and Cell biology.
His main research concerns Genetics, Biochemistry, Arabidopsis, Gene and Arabidopsis thaliana. His Arabidopsis research includes elements of Transcription, Gene expression and Cell biology. Howard M. Goodman combines topics linked to Insulin with his work on Gene.
In his study, Molecular cloning, Sequence analysis and Genomic organization is strongly linked to DNA sequencing, which falls under the umbrella field of Chromosome. He works mostly in the field of Plastid, limiting it down to concerns involving ATP synthase and, occasionally, Molecular biology. His Molecular biology study incorporates themes from Open reading frame, Mammalian CPEB3 ribozyme and Group II intron.
Howard M. Goodman mostly deals with Genetics, Arabidopsis, Mutant, Biochemistry and Arabidopsis thaliana. His study with Arabidopsis involves better knowledge in Gene. Howard M. Goodman is interested in Gene silencing, which is a field of Gene.
The concepts of his Mutant study are interwoven with issues in DNA-binding domain, Protein domain and Transit Peptide. He interconnects Chloroplast, Plastid, Molecular biology, Sequence and ATP synthase in the investigation of issues within Arabidopsis thaliana. His Chromosome research is multidisciplinary, incorporating perspectives in Sequence analysis, DNA sequencing and Genomic organization.
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Isolation of the Arabidopsis ABI3 gene by positional cloning.
Jerome Giraudat;Brian M. Hauge;Christiane Valon;Jan Smalle.
The Plant Cell (1992)
Analysis of 1.9 Mb of contiguous sequence from chromosome 4 of Arabidopsis thaliana
M. Bevan;I. Bancroft;E. Bent.
Sequence and analysis of chromosome 2 of the plant Arabidopsis thaliana
Xiaoying Lin;Samir Kaul;Steve Rounsley;Terrance P. Shea.
A cyclic AMP- and phorbol ester-inducible DNA element.
Michael Comb;Neal C. Birnberg;Audrey Seasholtz;Edward Herbert.
Human growth hormone as a reporter gene in regulation studies employing transient gene expression.
R F Selden;K B Howie;M E Rowe;H M Goodman.
Molecular and Cellular Biology (1986)
Analysis of endonuclease R-EcoRI fragments of DNA from lambdoid bacteriophages and other viruses by agarose-gel electrophoresis.
Robert B. Helling;Howard M. Goodman;Herbert W. Boyer.
Journal of Virology (1974)
Map-based cloning of a gene controlling omega-3 fatty acid desaturation in Arabidopsis
Vincent Arondel;Bertrand Lemieux;Inhwan Hwang;Sue Gibson.
The Arabidopsis Abscisic Acid Response Locus ABI4 Encodes an APETALA2 Domain Protein
Ruth R. Finkelstein;Ming Li Wang;Tim J. Lynch;Shashirekha Rao.
The Plant Cell (1998)
Analysis of Arabidopsis mutants deficient in flavonoid biosynthesis.
Brenda W. Shirley;William L. Kubasek;Gisela Storz;Gisela Storz;Edward Bruggemann.
Plant Journal (1995)
Pathogenesis-related proteins in plants
Ursula M. Pfitzner;Arthur P. Pfitzner;Howard M. Prof. Goodman.
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