Lei Wang scite author profile

Laccases and their homologues form the protein superfamily of multicopper oxidases (MCO). They catalyze the oxidation of many, particularly phenolic substances, and, besides playing an important role in many cellular activities, are of interest in biotechnological applications. The Laccase Engineering Database (LccED, http://www.lcced.uni-stuttgart.de) was designed to serve as a tool for a systematic sequence-based classification and analysis of the diverse multicopper oxidase protein family. More than 2200 proteins were classified into 11 superfamilies and 56 homologous families. For each family, the LccED provides multiple sequence alignments, phylogenetic trees and family-specific HMM profiles. The integration of structures for 14 different proteins allows a comprehensive comparison of sequences and structures to derive biochemical properties. Among the families, the distribution of the proteins regarding different kingdoms was investigated. The database was applied to perform a comprehensive analysis by MCO- and laccase-specific patterns.The LccED combines information of sequences and structures of MCOs. It serves as a classification tool to assign new proteins to a homologous family and can be applied to investigate sequence–structure–function relationship and to guide protein engineering.Database URL: http://www.lcced.uni-stuttgart.de

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PRMT6 activates cyclin D1 expression in conjunction with the transcription factor LEF1

Schneider

Herkt

Wang

et al. 2021

Oncogenesis

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The establishment of cell type specific gene expression by transcription factors and their epigenetic cofactors is central for cell fate decisions. Protein arginine methyltransferase 6 (PRMT6) is an epigenetic regulator of gene expression mainly through methylating arginines at histone H3. This way it influences cellular differentiation and proliferation. PRMT6 lacks DNA-binding capability but is recruited by transcription factors to regulate gene expression. However, currently only a limited number of transcription factors have been identified, which facilitate recruitment of PRMT6 to key cell cycle related target genes. Here, we show that LEF1 contributes to the recruitment of PRMT6 to the central cell cycle regulator CCND1 (Cyclin D1). We identified LEF1 as an interaction partner of PRMT6. Knockdown of LEF1 or PRMT6 reduces CCND1 expression. This is in line with our observation that knockdown of PRMT6 increases the number of cells in G1 phase of the cell cycle and decreases proliferation. These results improve the understanding of PRMT6 activity in cell cycle regulation. We expect that these insights will foster the rational development and usage of specific PRMT6 inhibitors for cancer therapy.

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Production of medium-chain-length hydroxyalkanoic acids from Pseudomonas putida in pH stat

Wang

Armbruster

Jendrossek

2007

Appl Microbiol Biotechnol

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Going to extremes – a metagenomic journey into the dark matter of life

Aevarsson¹,

Kaczorowska²,

Adalsteinsson³

et al. 2021

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The Virus-X—Viral Metagenomics for Innovation Value—project was a scientific expedition to explore and exploit uncharted territory of genetic diversity in extreme natural environments such as geothermal hot springs and deep-sea ocean ecosystems. Specifically, the project was set to analyse and exploit viral metagenomes with the ultimate goal of developing new gene products with high innovation value for applications in biotechnology, pharmaceutical, medical, and the life science sectors. Viral gene pool analysis is also essential to obtain fundamental insight into ecosystem dynamics and to investigate how viruses influence the evolution of microbes and multicellular organisms. The Virus-X Consortium, established in 2016, included experts from eight European countries. The unique approach based on high throughput bioinformatics technologies combined with structural and functional studies resulted in the development of a biodiscovery pipeline of significant capacity and scale. The activities within the Virus-X consortium cover the entire range from bioprospecting and methods development in bioinformatics to protein production and characterisation, with the final goal of translating our results into new products for the bioeconomy. The significant impact the consortium made in all of these areas was possible due to the successful cooperation between expert teams that worked together to solve a complex scientific problem using state-of-the-art technologies as well as developing novel tools to explore the virosphere, widely considered as the last great frontier of life.

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Crystal structures of theBacillus subtilisprophage lytic cassette proteins XepA and YomS

Freitag-Pohl¹,

Jasilionis²,

Håkansson³

et al. 2019

Acta Cryst Sect D Struct Biol

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The lytic cassette proteins XepA and YomS from Bacillus subtilis prophages have been characterized and it was found that only XepA establishes cytotoxic activity in plaque assays. The crystal structures of both proteins show a unique pentameric assembly, in which YomS adopts a very similar fold to the C-terminal domain of the XepA dumbbell pentamer. The overall architecture of XepA, with the N-terminal domain subunits resembling cytoplasmic membrane-binding C2-domain folds, suggests that any lytic functionality could be based on disruption of the proton motive force of the cytoplasmic membrane, which induces cell lysis.

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Lei Wang

The Laccase Engineering Database: a classification and analysis system for laccases and related multicopper oxidases

PRMT6 activates cyclin D1 expression in conjunction with the transcription factor LEF1

Production of medium-chain-length hydroxyalkanoic acids from Pseudomonas putida in pH stat

Going to extremes – a metagenomic journey into the dark matter of life

Crystal structures of theBacillus subtilisprophage lytic cassette proteins XepA and YomS

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