Institution
Laboratory of Molecular Biology
Facility•Cambridge, Cambridgeshire, United Kingdom•
About: Laboratory of Molecular Biology is a facility organization based out in Cambridge, Cambridgeshire, United Kingdom. It is known for research contribution in the topics: Gene & RNA. The organization has 19395 authors who have published 24236 publications receiving 2101480 citations.
Topics: Gene, RNA, DNA, Population, Receptor
Papers published on a yearly basis
Papers
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TL;DR: The frequency of tau mutations in a large population-based study of FTD carried out in the Netherlands from January 1994 to June 1998 is reported, finding an intronic mutation at position +33 after exon 9, which is likely to affect the alternative splicing of t Tau.
Abstract: Summary Mutations in microtubule-associated protein tau recently have been identified in familial cases of frontotemporal dementia (FTD). We report the frequency of tau mutations in a large population-based study of FTD carried out in the Netherlands from January 1994 to June 1998. Thirty-seven patients had ≥1 first-degree relative with dementia. A mutation in the tau gene was found in 17.8% of the group of patients with FTD and in 43% of patients with FTD who also had a positive family history of FTD. Three distinct missense mutations (G272V, P301L, R406W) accounted for 15.6% of the mutations. These three missense mutations, and a single amino acid deletion (ΔK280) that was detected in one patient, strongly reduce the ability of tau to promote microtubule assembly. We also found an intronic mutation at position +33 after exon 9, which is likely to affect the alternative splicing of tau. Tau mutations are responsible for a large proportion of familial FTD cases; however, there are also families with FTD in which no mutations in tau have been found, which indicates locus and/or allelic heterogeneity. The different tau mutations may result in disturbances in the interactions of the protein tau with microtubules, resulting in hyperphosphorylation of tau protein, assembly into filaments, and subsequent cell death.
421 citations
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TL;DR: Proteolytic switches appear to be critical for cell cycle development in Caulobacter crescentus, for proper sporulation in Bacillus subtilis, and for the transition in and out of stationary phase in Escherichia coli.
Abstract: Proteolysis by cytoplasmic, energy-dependent proteases plays a critical role in many regulatory circuits, keeping basal levels of regulatory proteins low and rapidly removing proteins when they are no longer needed. In bacteria, four families of energy-dependent proteases carry out degradation. In all of them, substrates are first recognized and bound by ATPase domains and then unfolded and translocated to a sequestered proteolytic chamber. Substrate selection depends not on ubiquitin but on intrinsic recognition signals within the proteins and, in some cases, on adaptor or effector proteins that participate in delivering the substrate to the protease. For some, the activity of these adaptors can be regulated, which results in regulated proteolysis. Recognition motifs for proteolysis are frequently found at the N and C termini of substrates. Proteolytic switches appear to be critical for cell cycle development in Caulobacter crescentus, for proper sporulation in Bacillus subtilis, and for the transition in and out of stationary phase in Escherichia coli. In eukaryotes, the same proteases are found in organelles, where they also play important roles.
421 citations
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TL;DR: In this article, the authors used metabolic tagging of nascent RNAs with 4-thiouridine (4sU) to investigate the link between nascent circRNA processing and transcription and found that circRNAs that are abundant at a steady-state level tend to accumulate.
421 citations
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TL;DR: It is demonstrated that the expression of 38× and 72× G4C2 repeats form intranuclear RNA foci that initiate apoptotic cell death in neuronal cell lines and zebrafish embryos and proposed that RNA toxicity and protein sequestration may disrupt RNA processing and contribute to neurodegeneration.
420 citations
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TL;DR: Calculations show that gene duplication has probably not occurred in plant ferredoxins; phage Qβ and f2 coat proteins may be homologous; and repeats in cytochrome c are not statistically significant.
420 citations
Authors
Showing all 19431 results
Name | H-index | Papers | Citations |
---|---|---|---|
Robert J. Lefkowitz | 214 | 860 | 147995 |
Ronald M. Evans | 199 | 708 | 166722 |
Tony Hunter | 175 | 593 | 124726 |
Marc G. Caron | 173 | 674 | 99802 |
Mark Gerstein | 168 | 751 | 149578 |
Timothy A. Springer | 167 | 669 | 122421 |
Harvey F. Lodish | 165 | 782 | 101124 |
Ira Pastan | 160 | 1286 | 110069 |
Bruce N. Ames | 158 | 506 | 129010 |
Philip Cohen | 154 | 555 | 110856 |
Gerald M. Rubin | 152 | 382 | 115248 |
Ashok Kumar | 151 | 5654 | 164086 |
Kim Nasmyth | 142 | 294 | 59231 |
Kenneth M. Yamada | 139 | 446 | 72136 |
Harold E. Varmus | 137 | 496 | 76320 |