null
US
Sign In
Sign Up for Free
Sign Up
We have detected that Javascript is not enabled in your browser. The dynamic nature of our site means that Javascript must be enabled to function properly. Please read our
terms and conditions
for more information.
Next up
Copy and Edit
You need to log in to complete this action!
Register for Free
66276
Bacterial Genome
Description
Moleccular Genetics Mind Map on Bacterial Genome, created by bukkyawox on 01/05/2013.
No tags specified
moleccular genetics
moleccular genetics
Mind Map by
bukkyawox
, updated more than 1 year ago
More
Less
Created by
bukkyawox
over 11 years ago
52
1
0
Resource summary
Bacterial Genome
Genome (of a cell/virus) is its entire genetic complement (inc. genes and sequences that connect all genes together)
All animals, plants and bacteria use DNA to carry their genetic info. Some viruses use RNA, either ss/ds DNA or RNA
DNA Bases A=T and C=G (not equal in ss viruses)
Most prokaryotes contain one ds circular DNA. Some have more than 1 (e.g. Vibrio Cholerae). Some are linear
Chromosomes are localized in a a region called the Nucleiod
Chromosomal DNA is folded into loops 50,000-10,000 bps long, held in place by protein and RNA, then folded into a compact mass.
Stretched out DNA would measure 1.6mm
The human DNA encodes about 30,000 genes
Plasmind... a small circular molecule of DNA
Exists independently of the chromosome
Can be as small as 1-2 Kb or over 100Kb.There can be one or over 300 copies of each plasmid
They code for their own replication and usually have one or more traits
Genes that are carried on the plasmid are NOT essential for normal metabolism
Fertility (F) Factors
Carry instructions for conjugation, allowing genes to transfer from one bacteria to another
Resistance (R) Factors
genes that give resistance to antibiotics for heavy metals. important in medicine as they are why antibiotics stop working to treat infections
Due to the spread of R-factor plasmids many antibiotics can't be used
98% of s.aureus strains are resistant to penicilin
Bacteriocin Factors
carry genes for toxins that kill other bacteria and allow a bacteria to kill the competition
Virulence Factors
carry genes fro structures, enzymes and toxins that enable a bacteria to become pathogenic and cause disease
Shigella has 230 Kb virulence plasmid that allows it to attach & invade the human gut and cause dysentry
can also be found in salmonella and E.coli sp
Degradative Factors
carry genes for the breakdown of chemicals (e.g. oils, xylene) can be useful economically & enviromentally
Cryptic Plasmids
Function is unknown
Genome Organisation
Not all DNA codes for protein. some is just for space between genes
Genes can run left-right or right-left
Coding & Non-coding
DNA has 2 strands coding and non-coding strand
Coding Strand matches the sequence of the mRNA. It has the sequence that matches the bases that code the protein and makes sense when we read it
Non-coding strand is copied by RNA Polymerase (also known as the template strand)
RNA Polymerase can initiate a new RNA strand
DNA Polymerase can not start a new strand, they need a primer, a starting point they can then extend from a 3'end
Organisation of Prokaryotic Genes
DNA is transcribed into mRNA by RNA Polymerase (enzyme_
The promoter sequence, upstream of the start of the RNA coding seqeunce is where RNA Polymerase interacts to begin transcription
The promoter consists of 2 sequences. One if found 35 bases before the start of the mRNA and one is found 10 bases before the start.
Referred to as -35 and -10 promoter sequences
-35 consensus consequence TTGACA
-10 consensus consequence TATAAT
TTGACA ----17+/- ---- TATAAT
Beyond the promoter is the first base that RNA Polymerase turns into mRNA
Can only be found experimentally
mRNA...in bacteria messages can be polycistronic (one mRNA encodes for several proteins)
Eukaryotes do not do this. One mRNA encodes for ONLY one protein
Transcription
1. RNA Polymerase attaches itself to the DNA strand (before the promoter)
2. Recognises the promoter and unzips the DNA
3. Sigma Factor is released from the RNA Polymerase
CodIng regions are EXONS. Non-coding regions are INTRONS
Translation
Ribosome (rRNA & Porteins) translate mRNA into protein
In Prokaryotes ribosomes bind to mRNA at a sequence known as Shine Dalgarmo Sequence
Shine Dalgarmo Sequence (a piece of mRNA that is complementary to the 3'end of the 16S RNA of the (ribosome)
AGGAGG is the consensus sequence ad is 4-7 bases 5' of the start codon
In prokaryotes this is not always AUG (Methionine)
Ribosomes read the mRNA and specific tRNA molecules incorporate the correct amino acid into the group peptide chain
Each tNA has a anti-codon that aches the codon in the mRNA
there is one start codon: AUG (fmet)
There are 3 stop codons: UAA UGA UAG
Not all DNA is genes coding for proteins
Some DNA is intragenic - has no known function (might just be a spacer DNA between genes)
There are other structures that can be found in prokaryotic DNA- phages, transposons and intergrons
In TRANSFORMATION, a recipient cell takes up DNA from the enviroment
Discovered by Fredrick Griffith (1928)
Show full summary
Hide full summary
Want to create your own
Mind Maps
for
free
with GoConqr?
Learn more
.
Similar
Maths Quiz
Andrea Leyden
Hitler's Rise to Power
hanalou
SSAT Verbal Questions (Analogies)
philip.ellis
Biology Revision - Y10 Mock
Tom Mitchell
Chemistry 3 Extracting Metals Core GCSE
Chloe Roberts
A Level: English language and literature techniques = Lexis
Jessica 'JessieB
Apresentações em Inglês
miminoma
Key word flashcards
I M Wilson
GCSE Maths: Geometry & Measures
Andrea Leyden
Using GoConqr to study geography
Sarah Egan
General Pathoanatomy Final MCQs (201-300)- 3rd Year- PMU
Med Student
Browse Library