D-Index & Metrics Best Publications

Ronald H. Reeder

Fred Hutchinson Cancer Research Center
United States

D-Index & Metrics 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.

Discipline name Citations Publications World Ranking National Ranking

Molecular Biology D-index 55 Citations 8,361 98 World Ranking 1583 National Ranking 798

Overview

What is he best known for?

The fields of study Ronald H. Reeder is best known for:

Gene
DNA
Ribosomal RNA

Ronald H. Reeder connects Gene with Evolutionary biology in his research. Borrowing concepts from Gene, he weaves in ideas under Evolutionary biology. He conducts interdisciplinary study in the fields of Genetics and Dominance (genetics) through his research. He performs multidisciplinary studies into Dominance (genetics) and Genetics in his work. In his works, Ronald H. Reeder performs multidisciplinary study on Molecular biology and Plasmid. His work often combines Plasmid and Molecular biology studies. In his papers, he integrates diverse fields, such as Ribosomal RNA and RNA. Ronald H. Reeder performs multidisciplinary study in RNA and Transfer RNA in his work. In his work, he performs multidisciplinary research in Transfer RNA and Ribosomal RNA.

His most cited work include:

The nucleotide sequence of the initiation and termination sites for ribosomal rna transcription in x. laevis (570 citations)
Composition and structure of chromosomal and amplified ribosomal DNA's of Xenopus laevis (254 citations)
Ribosomal RNA synthesis in isolated nuclei (237 citations)

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

His Ribosomal RNA study is focused on Internal transcribed spacer and Spacer DNA. He undertakes multidisciplinary investigations into Internal transcribed spacer and Ribosomal RNA in his work. His work often combines Gene and Cytoplasm studies. In his works, Ronald H. Reeder performs multidisciplinary study on Cytoplasm and Gene. He combines Genetics and Computational biology in his studies. He performs integrative study on Computational biology and Genetics. Ronald H. Reeder combines Molecular biology and Biochemistry in his research. The study of Biochemistry is intertwined with the study of RNA in a number of ways. In his research, he performs multidisciplinary study on RNA and Ribosome.

Ronald H. Reeder most often published in these fields:

Gene (98.59%)
Genetics (81.69%)
Molecular biology (77.46%)

What were the highlights of his more recent work (between 1994-2004)?

Promoter (100.00%)
Gene expression (100.00%)
RNA polymerase II (100.00%)

In recent works Ronald H. Reeder was focusing on the following fields of study:

His research ties TAF4 and Promoter together. His research on TAF4 frequently links to adjacent areas such as Promoter. Ronald H. Reeder performs integrative study on Gene expression and Repressor. He undertakes multidisciplinary studies into Repressor and RNA in his work. In his works, Ronald H. Reeder conducts interdisciplinary research on RNA and Termination factor. He integrates Termination factor with RNA polymerase II in his research. Ronald H. Reeder integrates RNA polymerase II and Gene in his studies. He carries out multidisciplinary research, doing studies in Gene and Computational biology. Ronald H. Reeder integrates several fields in his works, including Computational biology and Genetics.

Between 1994 and 2004, his most popular works were:

RNA polymerase I transcription factor Rrn3 is functionally conserved between yeast and human (100 citations)
Regulation of RNA Polymerase I Transcription in Yeast and Vertebrates (98 citations)
Transcriptional termination by RNA polymerase I requires the small subunit Rpa12p (69 citations)

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

The nucleotide sequence of the initiation and termination sites for ribosomal RNA transcription in X. laevis.

Barbara Sollner-Webb;Ronald H. Reeder.
Cell (1979)

687 Citations

Composition and structure of chromosomal and amplified ribosomal DNA's of Xenopus laevis

Igor B. Dawid;Donald D. Brown;Ronald H. Reeder.
Journal of Molecular Biology (1970)

348 Citations

Ribosomal RNA synthesis in isolated nuclei.

Ronald H. Reeder;Robert G. Roeder.
Journal of Molecular Biology (1972)

323 Citations

Enhancers and ribosomal gene spacers

Ronald H. Reeder.
Cell (1984)

287 Citations

Variants of the TATA-binding protein can distinguish subsets of RNA polymerase I, II, and III promoters.

Michael C. Schultz;Ronald H. Reeder;Steven Hahn.
Cell (1992)

282 Citations

The molecular basis for length heterogeneity in ribosomal DNA from Xenopus laevis

Peter K. Wellauer;Igor B. Dawid;Donald D. Brown;Ronald H. Reeder.
Journal of Molecular Biology (1976)

236 Citations

Enhancer-like properties of the 60/81 bp elements in the ribosomal gene spacer of Xenopus laevis.

Paul Labhart;Ronald H. Reeder.
Cell (1984)

223 Citations

Spacer regulation of xenopus ribosomal gene transcription: competition in oocytes

Ronald H. Reeder;Judith G. Roan;Marietta Dunaway.
Cell (1983)

199 Citations

rRNA synthesis in the nucleolus

Ronald H. Reeder.
Trends in Genetics (1990)

193 Citations

Spacer sequences regulate transcription of ribosomal gene plasmids injected into Xenopus embryos

Sharon J. Busby;Ronald H. Reeder.
Cell (1983)

183 Citations

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