What is he best known for?
The fields of study he is best known for:
His primary areas of investigation include Genetics, Gene, Agrobacterium tumefaciens, Molecular biology and Biochemistry.
He regularly links together related areas like Cell biology in his Genetics studies.
His biological study deals with issues like Protoplast, which deal with fields such as Complementary DNA.
His Agrobacterium tumefaciens research includes elements of Selectable marker, Vector and Auxin.
His Molecular biology research incorporates themes from Nucleic acid sequence, Chloramphenicol acetyltransferase, Polyadenylation, Expression vector and Nicotiana tabacum.
The Agrobacterium study combines topics in areas such as Gene expression and Rhizobiaceae.
His most cited work include:
- The promoter of TL-DNA gene 5 controls the tissue-specific expression of chimaeric genes carried by a novel type of Agrobacterium binary vector (1786 citations)
- Improved method for the isolation of RNA from plant tissues. (1677 citations)
- Brassinosteroids Rescue the Deficiency of CYP90, a Cytochrome P450, Controlling Cell Elongation and De-etiolation in Arabidopsis (818 citations)
What are the main themes of his work throughout his whole career to date?
Jeff Schell mainly focuses on Gene, Genetics, Molecular biology, Biochemistry and Gene expression.
Within one scientific family, Jeff Schell focuses on topics pertaining to Cell biology under Gene, and may sometimes address concerns connected to Auxin and Plant cell.
His study involves Plasmid, Agrobacterium tumefaciens, DNA, Mutant and Transformation, a branch of Genetics.
His research in Plasmid focuses on subjects like Gall, which are connected to Crown.
He usually deals with Molecular biology and limits it to topics linked to Complementary DNA and Open reading frame.
His Gene expression research incorporates elements of Genetically modified crops and Transcription.
He most often published in these fields:
- Gene (50.45%)
- Genetics (41.74%)
- Molecular biology (31.53%)
What were the highlights of his more recent work (between 1993-2016)?
- Biochemistry (23.72%)
- Gene (50.45%)
- Genetics (41.74%)
In recent papers he was focusing on the following fields of study:
Jeff Schell focuses on Biochemistry, Gene, Genetics, Molecular biology and Cell biology.
He has included themes like Acetyl-CoA carboxylase and Botany in his Gene study.
His work is connected to Genome, Gene expression, Promoter, Plasmid and Reporter gene, as a part of Genetics.
As part of the same scientific family, Jeff Schell usually focuses on Molecular biology, concentrating on DNA and intersecting with Gene targeting.
The various areas that Jeff Schell examines in his Cell biology study include Mutant, Transformation and Auxin.
His Arabidopsis study also includes
- Kinase and related Protein subunit,
- Arabidopsis thaliana that intertwine with fields like Agrobacterium.
Between 1993 and 2016, his most popular works were:
- Brassinosteroids Rescue the Deficiency of CYP90, a Cytochrome P450, Controlling Cell Elongation and De-etiolation in Arabidopsis (818 citations)
- Enhanced quantitative resistance against fungal disease by combinatorial expression of different barley antifungal proteins in transgenic tobacco (497 citations)
- Chimaeric gene coding for a transit peptide and a heterologous polypeptide (436 citations)
In his most recent research, the most cited papers focused on:
The scientist’s investigation covers issues in Biochemistry, Gene, Molecular biology, Arabidopsis and Genetics.
His research on Gene frequently connects to adjacent areas such as Cytoplasm.
His Molecular biology study combines topics from a wide range of disciplines, such as Amino acid, DNA, Homologous recombination, Green fluorescent protein and Complementary DNA.
His study on Arabidopsis also encompasses disciplines like
- Mutation that intertwine with fields like Protein kinase C, Nuclear localization sequence, Nuclear transport, Abscisic acid and Brassinosteroid,
- Derepression which is related to area like Wild type, Brassinolide, Etiolation and Cell biology.
His Arabidopsis thaliana, Genome, Fusion gene and Plasmid study, which is part of a larger body of work in Genetics, is frequently linked to Inverse polymerase chain reaction, bridging the gap between disciplines.
His Arabidopsis thaliana research is multidisciplinary, incorporating elements of Regulation of gene expression, Gene silencing and Agrobacterium, Transfer DNA.
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