Team I Functional Annotation Group: Difference between revisions

Team 1 Functional Annotation

Team members: Kenji Gerhardt, Maria Ahmad, Manasa Vegesna, Shuheng Gan, and Hyeonjeong Cheon

Introduction

Background

Functional annotation is the process of associating predicted genes with their functional role in a cell. This includes the type of gene (translated/untranslated), their location within the cell, and their chemical and biological roles. These can be derived both by comparison to similar, already annotated genes with known (or anticipated) functions, or through ab initio annotation that relies on existing models, but which does not rely on databases of other annotated genes.

Objective

Our goal in this step is to functionally annotate the genes supplied to us by the gene prediction group.

Data

The genomes supplied to us were identified during assembly as E. coli. E. coli is the most highly studied microorganism: at present, NCBI contains 1072 complete E. coli genomes in its genome database, along with thousands of additional chromosomes, contigs, and scaffolds. This depth of study extends to its genes, where multiple pathogenic strains are identified and characterized well.

Pipeline

Pipeline image will be inserted

Clustering

Methods

Ab-initio Approach

Ab-Initio Tools predict and annotate different regions of the prokaryotic genome using 1) sequence composition, 2) likelihoods within the gene models, 3) gene content, and 4) ignal Detection. Ab-Initio Approach can be used for finding new genes, and no external data or evidence is needed for the prediction. However, it is limited by the presence of False Positives in the predicted data as well as over-prediction of small genes.

Homology-based Tools

Prokka

EggNOG

Interproscan

DeepARG

Results

Reference