Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0282612 (
PIN
)
2,291
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Two cytoplasmically inherited determinants related by their manifestation to the control of translation accuracy were previously described in yeast. Cells carrying one of them, [PSI(+)], display a nonsense suppressor phenotype and contain a prion form of the Sup35 protein. Another element, [
PIN
(+)], determines the probability of de novo generation of [PSI(+)] and results from a prion form of several proteins, which can be functionally unrelated to Sup35p. Here we describe a novel nonchromosomal determinant related to the SUP35 gene. This determinant, designated [
ISP
(+)], was identified as an antisuppressor of certain sup35 mutations. We observed its loss upon growth on guanidine hydrochloride and subsequent spontaneous reappearance with high frequency. The reversible curability of [
ISP
(+)] resembles the behavior of yeast prions. However, in contrast to known prions, [
ISP
(+)] does not depend on the chaperone protein Hsp104. Though manifestation of both [
ISP
(+)] and [PSI(+)] is related to the SUP35 gene, the maintenance of [
ISP
(+)] does not depend on the prionogenic N-terminal domain of Sup35p and Sup35p is not aggregated in [
ISP
(+)] cells, thus ruling out the possibility that [
ISP
(+)] is a specific form of [PSI(+)]. We hypothesize that [
ISP
(+)] is a novel prion involved in the control of translation accuracy in yeast.
...
PMID:Novel non-Mendelian determinant involved in the control of translation accuracy in Saccharomyces cerevisiae. 1180 42
Four protein-based genetic determinants or prions-[SWI(+)], [MCA], [OCT(+)], and [MOT3(+)]-are recent additions to the list of well-known Saccharomyces cerevisiae prions, [PSI(+)], [URE3], and [
PIN
(+)]. A rapid expansion of this list may indicate that many yeast proteins can convert into heritable prion forms and underscores a problem of prion input into cellular physiology. Here, we prove that the global transcriptional regulator Sfp1 can become a prion corresponding to the prion-like determinant [
ISP
(+)] described earlier. We show that SFP1 deletion causes an irreversible [
ISP
(+)] loss, whereas increased SFP1 expression induces [
ISP
(+)] appearance. Cells that display the [
ISP
(+)] phenotype contain the aggregated form of Sfp1. Indeed, these aggregates demonstrate a nuclear location. We also show that the phenotypic manifestation of Sfp1 prionization differs from the manifestation of SFP1 deletion. These properties and others distinguish [
ISP
(+)] from yeast prions described to date.
...
PMID:Non-Mendelian determinant [ISP+] in yeast is a nuclear-residing prion form of the global transcriptional regulator Sfp1. 2049 75
