BTY227 - PowerPoint PPT Presentation

1 / 12
About This Presentation
Title:

BTY227

Description:

Genome - total genetic material in a cell. includes chromosomal ... of putative cobalt uptake operon. cbiN membrane spanning - putative anchor protein ... – PowerPoint PPT presentation

Number of Views:46
Avg rating:3.0/5.0
Slides: 13
Provided by: biotechno
Category:
Tags: bty227 | putative

less

Transcript and Presenter's Notes

Title: BTY227


1
BTY227
  • Lecture 2. Microbial genomes and genes

2
The genome
  • Genome - total genetic material in a cell
  • includes chromosomal and extrachromosomal
    elements)
  • Prokaryotic genomes
  • GC content
  • Size
  • Comparing genomes
  • DNA-DNA hybridisation
  • ssDNA from two organisms is incubated at 30oC
    below Tm
  • Remove residual ssDNA
  • Measure dsDNA
  • Sequence comparisons
  • In silico alignment (BLAST)

3
Genome packaging
  • Nucleoid
  • Localised compacted DNA complexes
  • No nuclear membrane! (c.f. eukaryotes)
  • Contain 60 DNA, 30 RNA and 10 protein
  • Usually single circular chromosome
  • Dividing cells can have 2 chromosomes (genome
    copies)
  • Some cells have more than one (Vibrio,
    Deinococcus)
  • Many bacterial species have extrachromosomal
    elements (plasmids) not encoding core functions
    (degradative enzymes, antibiotic resistance etc).

4
Genome composition
  • Microbial genomes vary in size and composition
  • E. coli 4.6Mbp 50 Average
  • B. subtilis 4.2 Mbp 43 Average
  • C. jejuni 1.7Mbp 31 Low
  • P. aeruginosa 6.3 Mbp 67 High
  • A. aeolicus 1.5 Mbp 43 Average
  • T. maritima 1.8 Mbp 46 Average
  • P. furiosus 1.8 Mbp 42 Average
  • M. jannaschii 1.7 Mbp 31 Low
  • S. cerevisiae 13 Mbp 38 Low/average

5
Genome mapping
  • Genome sequencing
  • Preparation of libraries
  • Clone sequencing
  • Assembly
  • Scaffolds and contigs
  • Annotation
  • HTP sequencing
  • 454, Sylexa

6
Comparisons of sequencing technologies
7
Genome composition
  • An average bacterial genome will have 2000 4000
    ORFs
  • E. coli genome (4.6 Mbp)
  • 4,288 predicted genes (ORFS) based on size,
    presence of Start and Stop codons
  • 5 - 6 - cell ad membrane structure
  • 12 -14 - transport proteins
  • 10 - central C metabolism and energy generation
  • 4 - regulatory (transcription factors, repressor
    and activator proteins)
  • 8 - replication, transcription, and translation
    machinery
  • 60 - unknown function
  • Bacterial ORFs are aligned along the genome
  • Some overlap
  • Little junk DNA between ORFs
  • Can be transcribed in either direction
  • Genes for related functions are often scattered
    throughout the genome
  • Genes for very closely related function (e.g.,
    synthesis of a product) may be assembled into
    operons, and co-transcribed.

8
Genome organisation
Transport Replication Energy metabolism Unknown
function
9
Gene (ORF) structure
RNA polymerase recognition binding (Pribnow
box)
Non-template strand Template strand
-35 -10
5 3
3 5
Promoter Antileader
Coding region
Antitrailer Terminator
Transcription
AUG
5
3
Shine Dalgarno sequence (ribosome binding site)
Direction of translation
10
Consensus sequences
11
  • Operon a region of genome encoding one of more
    structural genes (ORFs) where expression is
    controlled by a single operator.
  • Bacterial Lac operon (see Prescott, p278)
  • Bacterial nitrile hydratase operon

12
Geobacillus smithii nitrile hydratase operon
structure
Terminator
-10
cbiN
Ferredoxin homologue
P14k
  • and a ORFs encoding the b and a
    subunits of the a2b2 nitrile hydratase enzyme
  • P14 Accessory protein
    involved in folding of native NHase
  • Amidase Second enzyme in the NHase
    pathway
  • Fd homologue Unknown function
  • Cbi proteins Involved in cobalt uptake
  • cbiM homology to component of putative cobalt
    uptake operon
  • cbiN membrane spanning - putative anchor protein
    for cbiO
  • cbiQ membrane spanning - putative anchor protein
    for cbiO
  • cbiO homology to ATP hydrolysing Co-uptake
    protein
Write a Comment
User Comments (0)
About PowerShow.com