Family Search for PF10260 (SAYSvFN)
PF10260 hits 3 sequences in PaperBLAST's database above the trusted cutoff. Showing hits to curated sequences only. Or see all hits or try another family.
SAYS1_DROME / Q9VBW0 SAYSvFN domain-containing protein 1 from Drosophila melanogaster (Fruit fly) (see paper)
Aligns to 100:169 / 177 (39.5%), covers 98.6% of PF10260, 104.9 bits
- function: Ufmylation 'reader' component of a translocation-associated quality control pathway, a mechanism that takes place when a ribosome has stalled during translation, and which is required to degrade clogged substrates (PubMed:36848233). Specifically recognizes and binds ufmylated ribosomes when a ribosome has stalled, promoting the transport of stalled nascent chain to lysosomes for degradation (By similarity).
SAYS1_HUMAN / Q9NPB0 SAYSvFN domain-containing protein 1 from Homo sapiens (Human) (see 2 papers)
Aligns to 105:175 / 183 (38.8%), covers 100.0% of PF10260, 100.9 bits
- function: Ufmylation 'reader' component of a translocation-associated quality control pathway, a mechanism that takes place when a ribosome has stalled during translation, and which is required to degrade clogged substrates (PubMed:36848233). Specifically recognizes and binds ufmylated ribosomes when a ribosome has stalled, promoting the transport of stalled nascent chain via the TRAPP complex to lysosomes for degradation (PubMed:36848233).
subunit: Associates (via N-terminus) with ribosomes.
SAYS1_MOUSE / Q8K190 SAYSvFN domain-containing protein 1 from Mus musculus (Mouse) (see paper)
Aligns to 100:170 / 188 (37.8%), covers 100.0% of PF10260, 99.6 bits
- function: Ufmylation 'reader' component of a translocation-associated quality control pathway, a mechanism that takes place when a ribosome has stalled during translation, and which is required to degrade clogged substrates (By similarity). Specifically recognizes and binds ufmylated ribosomes when a ribosome has stalled, promoting the transport of stalled nascent chain via the TRAPP complex to lysosomes for degradation (By similarity).
subunit: Associates (via N-terminus) with ribosomes.
disruption phenotype: No visible phenotype; mice are fertile, with no differences in sperm morphology or motility, although the cauda epididymis contains slightly less sperm.
Or search for genetic data about PF10260 in the Fitness Browser
by Morgan Price,
Arkin group
Lawrence Berkeley National Laboratory