SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2024404671> ?p ?o ?g. }

Showing items 1 to 100 of ±151 with 100 items per page.

W2024404671 endingPage "1010" @default.
W2024404671 startingPage "995" @default.
W2024404671 abstract "Specific recognition of tRNAs by aminoacyl-tRNA synthetases is governed by sets of aminoacylation identity elements, well defined for numerous prokaryotic systems and eukaryotic cytosolic systems. Only restricted information is available for aminoacylation of human mitochondrial tRNAs, despite their particularities linked to the non-classical structures of the tRNAs and their involvement in a growing number of human neurodegenerative disorders linked to mutations in the corresponding tRNA genes. A major difficulty to be overcome is the preparation of active in vitro transcripts enabling a rational mutagenic analysis, as is currently performed for classical tRNAs. Here, structural and aminoacylation properties of in vitro transcribed tRNALeu(UUR) are presented. Solution probing using a combination of enzymatic and chemical tools revealed only partial folding into an L-shaped structure, with an acceptor branch but with a floppy anticodon branch. Optimization of aminoacylation conditions allowed charging of up to 75% of molecules, showing that, despite its partially relaxed structure, in vitro transcribed tRNALeu(UUR) is able to adapt to the synthetase. In addition, mutational analysis demonstrates that the discriminator base as well as residue A14 are important leucine identity elements. Thus, human mitochondrial leucylation is dependent on rules similar to those that apply in Escherichia coli. The impact of a subset of pathology-related mutations on aminoacylation and on tRNA structure, has been explored. These variants do not show significant structural rearrangements and either do not affect aminoacylation (mutations T3250C, T3271C, C3303T) or lead to marked effects. Interestingly, two variants with a mutation at the same position (A3243G and A3243T) lead to markedly different losses in aminoacylation efficiencies (tenfold and 300-fold, respectively)." @default.
W2024404671 created "2016-06-24" @default.
W2024404671 creator A5008424439 @default.
W2024404671 creator A5010709662 @default.
W2024404671 creator A5010715794 @default.
W2024404671 creator A5047984223 @default.
W2024404671 creator A5075010953 @default.
W2024404671 creator A5088580567 @default.
W2024404671 date "2003-05-01" @default.
W2024404671 modified "2023-10-17" @default.
W2024404671 title "Towards Understanding Human Mitochondrial Leucine Aminoacylation Identity" @default.
W2024404671 cites W122658792 @default.
W2024404671 cites W1533676256 @default.
W2024404671 cites W1537929971 @default.
W2024404671 cites W1541909027 @default.
W2024404671 cites W1543796220 @default.
W2024404671 cites W1544552427 @default.
W2024404671 cites W1619427790 @default.
W2024404671 cites W1640169075 @default.
W2024404671 cites W1969605048 @default.
W2024404671 cites W1970667469 @default.
W2024404671 cites W1970693337 @default.
W2024404671 cites W1971174787 @default.
W2024404671 cites W1972925152 @default.
W2024404671 cites W1975094936 @default.
W2024404671 cites W1975372074 @default.
W2024404671 cites W1981529363 @default.
W2024404671 cites W1988336061 @default.
W2024404671 cites W1996348492 @default.
W2024404671 cites W2003618100 @default.
W2024404671 cites W2005894130 @default.
W2024404671 cites W2005902319 @default.
W2024404671 cites W2008264319 @default.
W2024404671 cites W2013999085 @default.
W2024404671 cites W2016156772 @default.
W2024404671 cites W2016254652 @default.
W2024404671 cites W2017149904 @default.
W2024404671 cites W2018772493 @default.
W2024404671 cites W2020368490 @default.
W2024404671 cites W2022877707 @default.
W2024404671 cites W2025531079 @default.
W2024404671 cites W2027804115 @default.
W2024404671 cites W2027953819 @default.
W2024404671 cites W2030813091 @default.
W2024404671 cites W2037204981 @default.
W2024404671 cites W2039243132 @default.
W2024404671 cites W2039701289 @default.
W2024404671 cites W2043163243 @default.
W2024404671 cites W2044494908 @default.
W2024404671 cites W2045409504 @default.
W2024404671 cites W2053732071 @default.
W2024404671 cites W2057481603 @default.
W2024404671 cites W2057892106 @default.
W2024404671 cites W2065841577 @default.
W2024404671 cites W2069169076 @default.
W2024404671 cites W2074934195 @default.
W2024404671 cites W2075072811 @default.
W2024404671 cites W2075619489 @default.
W2024404671 cites W2075835114 @default.
W2024404671 cites W2078991180 @default.
W2024404671 cites W2079247093 @default.
W2024404671 cites W2084476356 @default.
W2024404671 cites W2084954024 @default.
W2024404671 cites W2085791091 @default.
W2024404671 cites W2087080349 @default.
W2024404671 cites W2094366412 @default.
W2024404671 cites W2100535792 @default.
W2024404671 cites W2101395123 @default.
W2024404671 cites W2105778990 @default.
W2024404671 cites W2106311383 @default.
W2024404671 cites W2108400459 @default.
W2024404671 cites W2109291482 @default.
W2024404671 cites W2111566452 @default.
W2024404671 cites W2124207622 @default.
W2024404671 cites W2137748756 @default.
W2024404671 cites W2141009329 @default.
W2024404671 cites W2157470390 @default.
W2024404671 cites W2162288115 @default.
W2024404671 cites W2163628812 @default.
W2024404671 cites W2165676560 @default.
W2024404671 cites W314287695 @default.
W2024404671 cites W408505 @default.
W2024404671 cites W4232389631 @default.
W2024404671 cites W4234887284 @default.
W2024404671 cites W4238979240 @default.
W2024404671 cites W4250595227 @default.
W2024404671 cites W4254119740 @default.
W2024404671 cites W4362172418 @default.
W2024404671 doi "https://doi.org/10.1016/s0022-2836(03)00373-5" @default.
W2024404671 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/12729737" @default.
W2024404671 hasPublicationYear "2003" @default.
W2024404671 type Work @default.
W2024404671 sameAs 2024404671 @default.
W2024404671 citedByCount "90" @default.
W2024404671 countsByYear W20244046712012 @default.
W2024404671 countsByYear W20244046712013 @default.
W2024404671 countsByYear W20244046712014 @default.
W2024404671 countsByYear W20244046712015 @default.