Disassembly intermediates of RbsD protein remain oligomeric despite the loss of an intact secondary structure

Feng, Yongjun; Zhang, Meng; Hu, Ming-xi; Zheng, Jie; Wei, Jiao; Chang, Zengyi

doi:10.1007/s11427-009-0141-1

Cited by 6 publications

(1 citation statement)

References 26 publications

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“…International colleagues have done much work and made great progress in research on Alzheimer's disease [38][39][40][41][42]. At the same time, Chinese researchers have also made important advances in studies on neurodegeneration, including studies on protein misfolding and aggregation [43], hippocampus structure and function [44], β-secretase [45,46], amyloid-beta [47][48][49], hyperphosphorylation [50−53], and dephosphorylation [54], glycation [55][56][57][58], related genes and special RNA [59][60][61], reactive oxygen species [62], white matter denaturation [63], ubiquitin and proteasome [64], apoptosis [65], plasticity and memory [59,66], chronic inflammation [67], prevention of brain and cognitive function [68,69] as well as clinical studies [70,71]. Although formaldehyde has been shown to play a role in the senile dementia process, much work is still required, especially to elucidate the cellular and molecular events involved in formaldehyde stress.…”

Section: Other Studies On Formaldehyde and Alzheimer's Diseasementioning

confidence: 99%

Formaldehyde stress

Lü

Miao

2010

Sci. China Life Sci.

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Formaldehyde, one of the most toxic organic compounds, is produced and processed in human cells. The level of human endogenous formaldehyde is maintained at a low concentration (0.01-0.08 mmol L(-1) in blood) under physiological conditions, but the concentration increases during ageing (over 65 years old). Clinical trials have shown that urine formaldehyde concentrations are significantly different between elderly Alzheimer's patients (n=91) and normal elderly volunteers (n=38) (P<0.001). Abnormally high levels of intrinsic formaldehyde lead to dysfunction in cognition such as learning decline and memory loss. Excess extracellular and intracellular formaldehyde could induce metabolic response and abnormal modifications of cellular proteins such as hydroxymethylation and hyperphosphorylation, protein misfolding, nuclear translocation and even cell death. This cellular response called formaldehyde stress is dependent upon the concentration of formaldehyde. Chronic impairments of the brain resulted from formaldehyde stress could be one of the mechanisms involved in the process of senile dementia during ageing.

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Section: Other Studies On Formaldehyde and Alzheimer's Diseasementioning

confidence: 99%

Formaldehyde stress

Lü

Miao

2010

Sci. China Life Sci.

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Cotton QTLdb: a cotton QTL database for QTL analysis, visualization, and comparison between Gossypium hirsutum and G. hirsutum × G. barbadense populations

et al. 2015

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A specialized database currently containing more than 2200 QTL is established, which allows graphic presentation, visualization and submission of QTL. In cotton quantitative trait loci (QTL), studies are focused on intraspecific Gossypium hirsutum and interspecific G. hirsutum × G. barbadense populations. These two populations are commercially important for the textile industry and are evaluated for fiber quality, yield, seed quality, resistance, physiological, and morphological trait QTL. With meta-analysis data based on the vast amount of QTL studies in cotton it will be beneficial to organize the data into a functional database for the cotton community. Here we provide a tool for cotton researchers to visualize previously identified QTL and submit their own QTL to the Cotton QTLdb database. The database provides the user with the option of selecting various QTL trait types from either the G. hirsutum or G. hirsutum × G. barbadense populations. Based on the user's QTL trait selection, graphical representations of chromosomes of the population selected are displayed in publication ready images. The database also provides users with trait information on QTL, LOD scores, and explained phenotypic variances for all QTL selected. The CottonQTLdb database provides cotton geneticist and breeders with statistical data on cotton QTL previously identified and provides a visualization tool to view QTL positions on chromosomes. Currently the database (Release 1) contains 2274 QTLs, and succeeding QTL studies will be updated regularly by the curators and members of the cotton community that contribute their data to keep the database current. The database is accessible from http://www.cottonqtldb.org.

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Launching the CUSBEA Article Series in SCIENCE CHINA Life Sciences

Chang

2010

Sci. China Life Sci.

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As a CUSBEA (China-United States Biochemistry Examination and Administration) Program fellow of Class IV (1985), I am very excited to announce the official launch of the CUSBEA Article Series in SCIENCE CHINA Life Sciences, a journal in which I am currently serving as Executive Vice-Editor-in-Chief. A couple of months ago, I initially proposed this idea to the Editor-in-Chief of SCIENCE CHINA Life Sciences, Professor Wang Da-Cheng and to the Editor General of SCIENCE CHINA Life Sciences, Professor Zhu Zuoyan, both of whom responded very positively. The article contributed by Dr. Luo Liqun [1], CUSBEA fellow of Class VI (1987) and currently professor in the Department of Biology at Stanford University, as well as Investigator at the Howard Hughes Medical Institute, marks the official beginning of this series. Three previously published SCIENCE CHINA Life Sciences articles might also be considered as part of this series. Dr. Shi Yang, who was a CUSBEA fellow of Class II (1983) and is currently professor of Pediatrics at Harvard Medical School, contributed one article in this series [2]. I also contributed two articles [3,4]. Science China Series C-Life Sciences published the February 2009 issue as a special issue in memory of Professor Ray Wu, primary founder and guiding leader of the CUSBEA Program [5]. The CUSBEA Program operated from 1982-1989 with a total of 422 fellows selected by means of a very competitive examination and interview process [6-8]. Many of those who continued their careers in academia are making a remarkable impact in the field of Life Sciences, mostly working in China or in the United States [7]. This special CUSBEA series aims to publish a variety of articles related to the CUSBEA program. These articles may include reviews and research articles written by former CUSBEA fellows. However, recollections from anyone concerning anything related to the CUSBEA program will also be highly welcomed. This CUSBEA series of articles will intermittently appear in the journal. Each article in this special series will be accompanied with a photo, as well as a brief introduction of the major contributor. We encourage all former CUSBEA fellows and those who were involved in this program in a certain capacity (e.g., professors who participated in the selection process or those who mentored CUSBEA fellows) to contribute to this special series.

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Disassembly intermediates of RbsD protein remain oligomeric despite the loss of an intact secondary structure

Cited by 6 publications

References 26 publications

Formaldehyde stress

Formaldehyde stress

Cotton QTLdb: a cotton QTL database for QTL analysis, visualization, and comparison between Gossypium hirsutum and G. hirsutum × G. barbadense populations

Launching the CUSBEA Article Series in SCIENCE CHINA Life Sciences

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