D-Index & Metrics Best Publications

Rainer Renkawitz

University of Giessen
Germany

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 56 Citations 11,854 113 World Ranking 1508 National Ranking 107

Overview

What is he best known for?

The fields of study Rainer Renkawitz is best known for:

Gene
DNA
Transcription factor

Gene and Mutant are two areas of study in which Rainer Renkawitz engages in interdisciplinary work. Rainer Renkawitz connects Genetics with Drosophila melanogaster in his research. Rainer Renkawitz merges many fields, such as Cell biology and DNA, in his writings. He merges DNA with Cell biology in his research. Rainer Renkawitz integrates Transcription factor and DNA-binding protein in his studies. Borrowing concepts from Gene silencing, Rainer Renkawitz weaves in ideas under Gene expression. Rainer Renkawitz incorporates Gene silencing and Gene expression in his studies. Rainer Renkawitz integrates Enhancer and Epigenetics in his research. Rainer Renkawitz undertakes multidisciplinary investigations into Epigenetics and Enhancer in his work.

His most cited work include:

None (1787 citations)
CTCF is a uniquely versatile transcription regulator linked to epigenetics and disease (549 citations)
Many Transcription Factors Interact Synergistically with Steroid Receptors (504 citations)

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

Rainer Renkawitz performs multidisciplinary study in the fields of Gene and Binding site via his papers. Rainer Renkawitz conducts interdisciplinary study in the fields of Binding site and Gene through his works. His study ties his expertise on Psychological repression together with the subject of Genetics. He undertakes multidisciplinary studies into Cell biology and Molecular biology in his work. By researching both Molecular biology and Cell biology, he produces research that crosses academic boundaries. In his papers, Rainer Renkawitz integrates diverse fields, such as Transcription factor and DNA-binding protein. His study deals with a combination of Gene expression and DNA methylation. Borrowing concepts from Gene expression, he weaves in ideas under DNA methylation. Rainer Renkawitz merges Enhancer with DNA in his study.

Rainer Renkawitz most often published in these fields:

Gene (98.99%)
Genetics (81.82%)
Cell biology (61.62%)

What were the highlights of his more recent work (between 2015-2021)?

Chromatin (100.00%)
Genetics (100.00%)
Gene (100.00%)

In recent works Rainer Renkawitz was focusing on the following fields of study:

His Cell biology study typically links adjacent topics like Interphase and Function (biology). Rainer Renkawitz performs multidisciplinary studies into Interphase and Chromatin in his work. His work on Chromatin is being expanded to include thematically relevant topics such as Cohesin. Borrowing concepts from Gene, Rainer Renkawitz weaves in ideas under Function (biology). In his works, he conducts interdisciplinary research on Gene and Cohesin. He connects Genetics with Computational biology in his research. Rainer Renkawitz conducts interdisciplinary study in the fields of Computational biology and Genetics through his works. With his scientific publications, his incorporates both Transcription factor and Binding site. He undertakes interdisciplinary study in the fields of Binding site and Transcription factor through his works.

Between 2015 and 2021, his most popular works were:

Insulators and domains of gene expression (95 citations)
CTCF chromatin residence time controls three-dimensional genome organization, gene expression and DNA methylation in pluripotent cells (19 citations)
Choice of binding sites for CTCFL compared to CTCF is driven by chromatin and by sequence preference (18 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

CTCF is a uniquely versatile transcription regulator linked to epigenetics and disease

Rolf Ohlsson;Rainer Renkawitz;Victor Lobanenkov.
Trends in Genetics (2001)

712 Citations

Modular structure of a chicken lysozyme silencer: involvement of an unusual thyroid hormone receptor binding site.

Aria Baniahmad;Christof Steiner;Anja Carola Köhne;Rainer Renkawitz.
Cell (1990)

652 Citations

Many transcription factors interact synergistically with steroid receptors

Roland Schule;Marc Muller;Christian Kaltschmidt;Rainer Renkawitz.
Science (1988)

591 Citations

BORIS, a novel male germ-line-specific protein associated with epigenetic reprogramming events, shares the same 11-zinc-finger domain with CTCF, the insulator protein involved in reading imprinting marks in the soma

Dmitri I. Loukinov;Elena Pugacheva;Sergei Vatolin;Svetlana D. Pack.
Proceedings of the National Academy of Sciences of the United States of America (2002)

495 Citations

A transferable silencing domain is present in the thyroid hormone receptor, in the v-erbA oncogene product and in the retinoic acid receptor.

A. Baniahmad;A.C. Köhne;R. Renkawitz.
The EMBO Journal (1992)

429 Citations

Cooperativity of the glucocorticoid receptor and the CACCC-box binding factor.

Roland Schüle;Marc Muller;Hidetsugu Otsuka-Murakami;Hidetsugu Otsuka-Murakami;Rainer Renkawitz.
Nature (1988)

408 Citations

Glucocorticoid and progesterone receptors bind to the same sites in two hormonally regulated promoters.

Dietmar Von Der Ahe;Susanne Janich;Claus Scheidereit;Rainer Renkawitz.
Nature (1985)

406 Citations

Sequences in the promoter region of the chicken lysozyme gene required for steroid regulation and receptor binding

Rainer Renkawitz;Günther Schütz;Dietmar von der Ahe;Miguel Beato.
Cell (1984)

330 Citations

Mouse lysozyme M gene: isolation, characterization, and expression studies.

Michael Cross;Inge Mangelsdorf;Angela Wedel;Rainer Renkawitz.
Proceedings of the National Academy of Sciences of the United States of America (1988)

304 Citations

CTCF is conserved from Drosophila to humans and confers enhancer blocking of the Fab-8 insulator

Hanlim Moon;Galina Filippova;Dmitry Loukinov;Elena Pugacheva.
EMBO Reports (2005)

287 Citations

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