SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3048365042> ?p ?o ?g. }

Showing items 1 to 100 of ±119 with 100 items per page.

W3048365042 abstract "Abstract Calcium (Ca 2+ ) influx into mitochondria occurs through a Ca 2+ -selective uniporter channel, which regulates essential cellular processes in eukaryotic organisms. Previous evolutionary analyses of its pore-forming subunits MCU and EMRE, and gatekeeper MICU1, pinpointed an evolutionary paradox: the presence of MCU homologs in fungal species devoid of any other uniporter components and of mt-Ca 2+ uptake. Here, we trace the mt-Ca 2+ uniporter evolution across 1,156 fully-sequenced eukaryotes and show that animal and fungal MCUs represent two distinct paralogous subfamilies originating from an ancestral duplication. Accordingly, we find EMRE orthologs outside Holoza and uncover the existence of an animal-like uniporter within chytrid fungi, which enables mt-Ca 2+ uptake when reconstituted in vivo in the yeast Saccharomyces cerevisiae . Our study represents the most comprehensive phylogenomic analysis of the mt-Ca 2+ uptake system and demonstrates that MCU, EMRE, and MICU formed the core of the ancestral opisthokont uniporter, with major implications for comparative structural and functional studies." @default.
W3048365042 created "2020-08-18" @default.
W3048365042 creator A5003394700 @default.
W3048365042 creator A5029531579 @default.
W3048365042 creator A5038541224 @default.
W3048365042 creator A5038716162 @default.
W3048365042 creator A5049223262 @default.
W3048365042 creator A5091727806 @default.
W3048365042 date "2020-08-12" @default.
W3048365042 modified "2023-10-14" @default.
W3048365042 title "Discovery of EMRE in fungi resolves the true evolutionary history of the mitochondrial calcium uniporter" @default.
W3048365042 cites W1173363010 @default.
W3048365042 cites W1485297825 @default.
W3048365042 cites W1616183675 @default.
W3048365042 cites W1978122642 @default.
W3048365042 cites W1986213783 @default.
W3048365042 cites W1991055482 @default.
W3048365042 cites W2002475003 @default.
W3048365042 cites W2010572143 @default.
W3048365042 cites W2019257137 @default.
W3048365042 cites W2031313830 @default.
W3048365042 cites W2033561922 @default.
W3048365042 cites W2041386815 @default.
W3048365042 cites W2043135080 @default.
W3048365042 cites W2045435533 @default.
W3048365042 cites W2067841051 @default.
W3048365042 cites W2078179312 @default.
W3048365042 cites W2085111073 @default.
W3048365042 cites W2111647009 @default.
W3048365042 cites W2115888213 @default.
W3048365042 cites W2120772351 @default.
W3048365042 cites W2138122982 @default.
W3048365042 cites W2142903428 @default.
W3048365042 cites W2144171388 @default.
W3048365042 cites W2150623567 @default.
W3048365042 cites W2156007429 @default.
W3048365042 cites W2160378127 @default.
W3048365042 cites W2167380395 @default.
W3048365042 cites W2177462712 @default.
W3048365042 cites W2277953252 @default.
W3048365042 cites W2339517318 @default.
W3048365042 cites W2343726927 @default.
W3048365042 cites W2407836082 @default.
W3048365042 cites W2462792504 @default.
W3048365042 cites W2546746451 @default.
W3048365042 cites W2614044637 @default.
W3048365042 cites W2741843627 @default.
W3048365042 cites W2767078779 @default.
W3048365042 cites W2799815432 @default.
W3048365042 cites W2811291792 @default.
W3048365042 cites W2846941494 @default.
W3048365042 cites W2877383832 @default.
W3048365042 cites W2882326707 @default.
W3048365042 cites W2891980898 @default.
W3048365042 cites W2899619123 @default.
W3048365042 cites W2943983020 @default.
W3048365042 cites W2986560034 @default.
W3048365042 doi "https://doi.org/10.1038/s41467-020-17705-4" @default.
W3048365042 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/7423614" @default.
W3048365042 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32788582" @default.
W3048365042 hasPublicationYear "2020" @default.
W3048365042 type Work @default.
W3048365042 sameAs 3048365042 @default.
W3048365042 citedByCount "16" @default.
W3048365042 countsByYear W30483650422020 @default.
W3048365042 countsByYear W30483650422021 @default.
W3048365042 countsByYear W30483650422022 @default.
W3048365042 countsByYear W30483650422023 @default.
W3048365042 crossrefType "journal-article" @default.
W3048365042 hasAuthorship W3048365042A5003394700 @default.
W3048365042 hasAuthorship W3048365042A5029531579 @default.
W3048365042 hasAuthorship W3048365042A5038541224 @default.
W3048365042 hasAuthorship W3048365042A5038716162 @default.
W3048365042 hasAuthorship W3048365042A5049223262 @default.
W3048365042 hasAuthorship W3048365042A5091727806 @default.
W3048365042 hasBestOaLocation W30483650421 @default.
W3048365042 hasConcept C104317684 @default.
W3048365042 hasConcept C181199279 @default.
W3048365042 hasConcept C28859421 @default.
W3048365042 hasConcept C35341161 @default.
W3048365042 hasConcept C55493867 @default.
W3048365042 hasConcept C78458016 @default.
W3048365042 hasConcept C86803240 @default.
W3048365042 hasConcept C90132467 @default.
W3048365042 hasConcept C95444343 @default.
W3048365042 hasConcept C98539663 @default.
W3048365042 hasConceptScore W3048365042C104317684 @default.
W3048365042 hasConceptScore W3048365042C181199279 @default.
W3048365042 hasConceptScore W3048365042C28859421 @default.
W3048365042 hasConceptScore W3048365042C35341161 @default.
W3048365042 hasConceptScore W3048365042C55493867 @default.
W3048365042 hasConceptScore W3048365042C78458016 @default.
W3048365042 hasConceptScore W3048365042C86803240 @default.
W3048365042 hasConceptScore W3048365042C90132467 @default.
W3048365042 hasConceptScore W3048365042C95444343 @default.
W3048365042 hasConceptScore W3048365042C98539663 @default.
W3048365042 hasIssue "1" @default.
W3048365042 hasLocation W30483650421 @default.
W3048365042 hasLocation W30483650422 @default.
W3048365042 hasLocation W30483650423 @default.