Team I Gene Prediction Group: Difference between revisions

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=='''Prokaryotic Gene Feature'''==
=='''Prokaryotic Gene Feature'''==
Prokaryotic genes have a relatively well-understood promoter sequence, such as a regulatory sequence, which can regulate the transcription of the gene into an mRNA.
*Prokaryotic genes have a relatively well-understood promoter sequence, such as a regulatory sequence, which can regulate the transcription of the gene into an mRNA.
Each prokaryotic gene has open reading frames(ORF) which start with start codons and end with end codons with no interruptions(end-codons) in-between, so it can provide a good, but not assured prediction of the protein-coding regions.
*Each prokaryotic gene has open reading frames(ORF) which start with start codons and end with end codons with no interruptions(end-codons) in-between, so it can provide a good, but not assured prediction of the protein-coding regions.

Revision as of 14:51, 4 March 2020

Members: Maria Ahmad, Hira Anis, Jessica Mulligan, Priya Narayanan, Aaron Pfennig, Winnie Zheng

Introduction

Prokaryotic Gene Feature

  • Prokaryotic genes have a relatively well-understood promoter sequence, such as a regulatory sequence, which can regulate the transcription of the gene into an mRNA.
  • Each prokaryotic gene has open reading frames(ORF) which start with start codons and end with end codons with no interruptions(end-codons) in-between, so it can provide a good, but not assured prediction of the protein-coding regions.