D-Index & Metrics Best Publications

D-Index & Metrics

Discipline name D-index D-index (Discipline H-index) only includes papers and citation values for an examined discipline in contrast to General H-index which accounts for publications across all disciplines. Citations Publications World Ranking National Ranking
Biology and Biochemistry D-index 51 Citations 8,262 128 World Ranking 9959 National Ranking 731

Overview

What is he best known for?

The fields of study he is best known for:

  • Gene
  • DNA
  • Enzyme

Peter L. Graumann mainly focuses on Bacillus subtilis, Cell biology, Biochemistry, DNA and Cold-shock domain. His Bacillus subtilis research is multidisciplinary, relying on both Molecular biology and Chromosome, Gene, Mutant. His Cell biology research is multidisciplinary, incorporating perspectives in Cell cycle, MreB, Cell membrane and Nucleoid.

In general Biochemistry study, his work on Ribosome, RNA and Protein biosynthesis often relates to the realm of Cold shock response, thereby connecting several areas of interest. His studies deal with areas such as Antiparallel, Intracellular protein, RNA-binding protein and Stereochemistry as well as DNA. The concepts of his Cold-shock domain study are interwoven with issues in Protein secondary structure, Protein family, Peptide sequence, Protein structure and Regulation of gene expression.

His most cited work include:

  • A superfamily of proteins that contain the cold-shock domain (369 citations)
  • Cold shock stress-induced proteins in Bacillus subtilis. (235 citations)
  • A family of cold shock proteins in Bacillus subtilis is essential for cellular growth and for efficient protein synthesis at optimal and low temperatures (211 citations)

What are the main themes of his work throughout his whole career to date?

Peter L. Graumann spends much of his time researching Cell biology, Bacillus subtilis, DNA, Cell membrane and Genetics. His Cell biology research incorporates elements of Chromosome segregation, MreB, Cell division, Nucleoid and DNA replication. His MreB study incorporates themes from Cell morphology, Prokaryotic cytoskeleton and Actin.

His biological study spans a wide range of topics, including Biophysics, Chromosome, Biochemistry, Gene and Molecular biology. His work on DNA damage as part of general DNA study is frequently linked to Translocase, bridging the gap between disciplines. His Cell membrane research is multidisciplinary, incorporating elements of Transport protein, Signal transduction, Subcellular localization and Membrane protein.

He most often published in these fields:

  • Cell biology (66.43%)
  • Bacillus subtilis (47.55%)
  • DNA (30.77%)

What were the highlights of his more recent work (between 2017-2021)?

  • Cell biology (66.43%)
  • Bacillus subtilis (47.55%)
  • DNA (30.77%)

In recent papers he was focusing on the following fields of study:

The scientist’s investigation covers issues in Cell biology, Bacillus subtilis, DNA, Biophysics and DNA replication. His Cell biology study combines topics in areas such as dnaC, Cell division, Mutant and DNA damage. His Bacillus subtilis research includes elements of ATPase, Chromosome, Chromosome segregation, Mutation and Cell cycle.

His DNA study typically links adjacent topics like Nucleoid. His study in Biophysics is interdisciplinary in nature, drawing from both Bioremediation, MreB, Bacterial cell structure, Cell membrane and Molecule. His studies in Cell membrane integrate themes in fields like Translation, Shewanella putrefaciens, Subcellular localization and Membrane protein.

Between 2017 and 2021, his most popular works were:

  • SMTracker: a tool for quantitative analysis, exploration and visualization of single-molecule tracking data reveals highly dynamic binding of B. subtilis global repressor AbrB throughout the genome. (32 citations)
  • Microdomain formation is a general property of bacterial membrane proteins and induces heterogeneity of diffusion patterns (18 citations)
  • Single molecule tracking reveals that the bacterial SMC complex moves slowly relative to the diffusion of the chromosome (14 citations)

In his most recent research, the most cited papers focused on:

  • Gene
  • DNA
  • Enzyme

His primary areas of study are Biophysics, DNA, Cell biology, Bacillus subtilis and Molecule. His Biophysics study incorporates themes from Chromium, Hexavalent chromium and Chromate conversion coating. Peter L. Graumann combines subjects such as Bacteria, Receptor, Transcriptional regulation and Escherichia coli with his study of DNA.

Peter L. Graumann merges Cell biology with Context in his study. His Bacillus subtilis research includes elements of Chromosome, Chromosome segregation, Cell division, FtsA and Nucleoid. Peter L. Graumann usually deals with Chromosome and limits it to topics linked to DNA damage and DNA repair.

This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.

Best Publications

A superfamily of proteins that contain the cold-shock domain

Peter L. Graumann;Mohamed A. Marahiel.
Trends in Biochemical Sciences (1998)

524 Citations

Cold shock stress-induced proteins in Bacillus subtilis.

P Graumann;K Schröder;R Schmid;M A Marahiel.
Journal of Bacteriology (1996)

322 Citations

A family of cold shock proteins in Bacillus subtilis is essential for cellular growth and for efficient protein synthesis at optimal and low temperatures

Peter Graumann;Thomas M. Wendrich;Michael H.W. Weber;Katja Schröder.
Molecular Microbiology (1997)

314 Citations

Structure in solution of the major cold-shock protein from Bacillus subtilis.

A Schnuchel;R Wiltscheck;M Czisch;M Herrler.
Nature (1993)

270 Citations

Some like it cold: response of microorganisms to cold shock

Peter Graumann;M. A. Marahiel.
Archives of Microbiology (1996)

268 Citations

Use of time-lapse microscopy to visualize rapid movement of the replication origin region of the chromosome during the cell cycle in Bacillus subtilis

Chris D. Webb;Peter L. Graumann;Jason A. Kahana;Aurelio A. Teleman.
Molecular Microbiology (1998)

230 Citations

Chromosome arrangement within a bacterium

Aurelio A. Teleman;Peter L. Graumann;Daniel Chi Hong Lin;Alan D. Grossman.
Current Biology (1998)

216 Citations

Mutational analysis of the putative nucleic acid‐binding surface of the cold‐shock domain, CspB, revealed an essential role of aromatic and basic residues in binding of single‐stranded DNA containing the Y‐box motif

Katja Schröder;Peter Graumann;Arndt Schnuchel;Tad A. Holak.
Molecular Microbiology (1995)

193 Citations

Actin-like Proteins MreB and Mbl from Bacillus subtilis Are Required for Bipolar Positioning of Replication Origins

Hervé Joël Defeu Soufo;Peter L. Graumann.
Current Biology (2003)

191 Citations

Cytoskeletal elements in bacteria.

Peter L. Graumann.
Annual Review of Microbiology (2007)

184 Citations

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