YRC Logo
PROTEIN SEARCH:
Descriptions Names[Advanced Search]

Any process that modulates the frequency, rate or extent of the semi-conservative replication of telomeric DNA. The cellular metabolic process whereby new strands of DNA are synthesized. The template for replication can either be an existing DNA molecule or RNA. The process whereby new strands of DNA are synthesized, using parental DNA as a template for the DNA-dependent DNA polymerases that synthesize the new strands. Any process that contributes to the maintenance of proper telomeric length and structure by affecting and monitoring the activity of telomeric proteins and the length of telomeric DNA. These processes includes those that shorten and lengthen the telomeric DNA sequences. Any process that activates or increases the frequency, rate or extent of the semi-conservative replication of telomeric DNA. Any process that stops, prevents or reduces the frequency, rate or extent of the semi-conservative replication of telomeric DNA. Any process that contributes to the maintenance of proper telomeric length and structure by affecting and monitoring the activity of telomeric proteins and lengthening the telomeric DNA. The process whereby telomeric DNA is synthesized semi-conservatively by the conventional replication machinery and telomeric accessory factors.

View Gene Ontology (GO) Term

GO TERM SUMMARY

Name: telomere maintenance via semi-conservative replication
Acc: GO:0032201
Aspect: Biological Process
Desc: The process whereby telomeric DNA is synthesized semi-conservatively by the conventional replication machinery and telomeric accessory factors.
Synonyms:
  • telomeric fork progression
  • telomeric replication fork progression
  • equal telomere replication
Proteins in PDR annotated with:
   This term: 1 [Search]
   Term or descendants: 1 [Search]


[geneontology.org]
INTERACTIVE GO GRAPH

GO:0032201 - telomere maintenance via semi-conservative replication (interactive image map)

YRC Informatics Platform - Version 3.0
Created and Maintained by: Michael Riffle