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cusp
Wiki
The master copies of EMBOSS documentation are available at
http://emboss.open-bio.org/wiki/Appdocs on the EMBOSS Wiki.
Please help by correcting and extending the Wiki pages.
Function
Create a codon usage table from nucleotide sequence(s)
Description
cusp calculates a codon usage table for one or more nucleotide coding
sequences and writes the table to file.
The codon usage table gives for each codon: i. Sequence of the codon.
ii. The encoded amino acid. iii. The proportion of usage of the codon
among its redundant set, i.e. the set of codons which code for this
codon's amino acid. iv. The expected number of codons, given the input
sequence(s), per 1000 bases. v. The observed number of codons in the
input sequences.
Usage
Here is a sample session with cusp
This example uses only one input sequence. The normal use would be to
use a set of coding sequences as the input.
% cusp -sbeg 135 -send 1292
Create a codon usage table from nucleotide sequence(s)
Input nucleotide sequence(s): tembl:x13776
Output file [x13776.cusp]:
Go to the input files for this example
Go to the output files for this example
Command line arguments
Create a codon usage table from nucleotide sequence(s)
Version: EMBOSS:6.6.0.0
Standard (Mandatory) qualifiers:
[-sequence] seqall Nucleotide sequence(s) filename and optional
format, or reference (input USA)
[-outfile] outfile [*.cusp] Output file name
Additional (Optional) qualifiers: (none)
Advanced (Unprompted) qualifiers: (none)
Associated qualifiers:
"-sequence" associated qualifiers
-sbegin1 integer Start of each sequence to be used
-send1 integer End of each sequence to be used
-sreverse1 boolean Reverse (if DNA)
-sask1 boolean Ask for begin/end/reverse
-snucleotide1 boolean Sequence is nucleotide
-sprotein1 boolean Sequence is protein
-slower1 boolean Make lower case
-supper1 boolean Make upper case
-scircular1 boolean Sequence is circular
-squick1 boolean Read id and sequence only
-sformat1 string Input sequence format
-iquery1 string Input query fields or ID list
-ioffset1 integer Input start position offset
-sdbname1 string Database name
-sid1 string Entryname
-ufo1 string UFO features
-fformat1 string Features format
-fopenfile1 string Features file name
"-outfile" associated qualifiers
-odirectory2 string Output directory
General qualifiers:
-auto boolean Turn off prompts
-stdout boolean Write first file to standard output
-filter boolean Read first file from standard input, write
first file to standard output
-options boolean Prompt for standard and additional values
-debug boolean Write debug output to program.dbg
-verbose boolean Report some/full command line options
-help boolean Report command line options and exit. More
information on associated and general
qualifiers can be found with -help -verbose
-warning boolean Report warnings
-error boolean Report errors
-fatal boolean Report fatal errors
-die boolean Report dying program messages
-version boolean Report version number and exit
Input file format
Input files for usage example
'tembl:x13776' is a sequence entry in the example nucleic acid database
'tembl'
Database entry: tembl:x13776
ID X13776; SV 1; linear; genomic DNA; STD; PRO; 2167 BP.
XX
AC X13776; M43175;
XX
DT 19-APR-1989 (Rel. 19, Created)
DT 14-NOV-2006 (Rel. 89, Last updated, Version 24)
XX
DE Pseudomonas aeruginosa amiC and amiR gene for aliphatic amidase regulation
XX
KW aliphatic amidase regulator; amiC gene; amiR gene.
XX
OS Pseudomonas aeruginosa
OC Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales;
OC Pseudomonadaceae; Pseudomonas.
XX
RN [1]
RP 1167-2167
RA Rice P.M.;
RT ;
RL Submitted (16-DEC-1988) to the INSDC.
RL Rice P.M., EMBL, Postfach 10-2209, Meyerhofstrasse 1, 6900 Heidelberg, FRG.
XX
RN [2]
RP 1167-2167
RX DOI; 10.1016/0014-5793(89)80249-2.
RX PUBMED; 2495988.
RA Lowe N., Rice P.M., Drew R.E.;
RT "Nucleotide sequence of the aliphatic amidase regulator gene (amiR) of
RT Pseudomonas aeruginosa";
RL FEBS Lett. 246(1-2):39-43(1989).
XX
RN [3]
RP 1-1292
RX PUBMED; 1907262.
RA Wilson S., Drew R.;
RT "Cloning and DNA sequence of amiC, a new gene regulating expression of the
RT Pseudomonas aeruginosa aliphatic amidase, and purification of the amiC
RT product";
RL J. Bacteriol. 173(16):4914-4921(1991).
XX
RN [4]
RP 1-2167
RA Rice P.M.;
RT ;
RL Submitted (04-SEP-1991) to the INSDC.
RL Rice P.M., EMBL, Postfach 10-2209, Meyerhofstrasse 1, 6900 Heidelberg, FRG.
XX
DR GOA; Q51417.
DR InterPro; IPR003211; AmiSUreI_transpt.
DR UniProtKB/Swiss-Prot; Q51417; AMIS_PSEAE.
[Part of this file has been deleted for brevity]
FT /note="ClaI fragment deleted in pSW36, constitutive
FT phenotype"
FT misc_feature 1
FT /note="last base of an XhoI site"
FT misc_feature 648..653
FT /note="end of 658bp XhoI fragment, deletion in pSW3 causes
FT constitutive expression of amiE"
FT misc_difference 1281
FT /replace="g"
FT /note="conflict"
FT /citation=[3]
XX
SQ Sequence 2167 BP; 363 A; 712 C; 730 G; 362 T; 0 other;
ggtaccgctg gccgagcatc tgctcgatca ccaccagccg ggcgacggga actgcacgat 60
ctacctggcg agcctggagc acgagcgggt tcgcttcgta cggcgctgag cgacagtcac 120
aggagaggaa acggatggga tcgcaccagg agcggccgct gatcggcctg ctgttctccg 180
aaaccggcgt caccgccgat atcgagcgct cgcacgcgta tggcgcattg ctcgcggtcg 240
agcaactgaa ccgcgagggc ggcgtcggcg gtcgcccgat cgaaacgctg tcccaggacc 300
ccggcggcga cccggaccgc tatcggctgt gcgccgagga cttcattcgc aaccgggggg 360
tacggttcct cgtgggctgc tacatgtcgc acacgcgcaa ggcggtgatg ccggtggtcg 420
agcgcgccga cgcgctgctc tgctacccga ccccctacga gggcttcgag tattcgccga 480
acatcgtcta cggcggtccg gcgccgaacc agaacagtgc gccgctggcg gcgtacctga 540
ttcgccacta cggcgagcgg gtggtgttca tcggctcgga ctacatctat ccgcgggaaa 600
gcaaccatgt gatgcgccac ctgtatcgcc agcacggcgg cacggtgctc gaggaaatct 660
acattccgct gtatccctcc gacgacgact tgcagcgcgc cgtcgagcgc atctaccagg 720
cgcgcgccga cgtggtcttc tccaccgtgg tgggcaccgg caccgccgag ctgtatcgcg 780
ccatcgcccg tcgctacggc gacggcaggc ggccgccgat cgccagcctg accaccagcg 840
aggcggaggt ggcgaagatg gagagtgacg tggcagaggg gcaggtggtg gtcgcgcctt 900
acttctccag catcgatacg cccgccagcc gggccttcgt ccaggcctgc catggtttct 960
tcccggagaa cgcgaccatc accgcctggg ccgaggcggc ctactggcag accttgttgc 1020
tcggccgcgc cgcgcaggcc gcaggcaact ggcgggtgga agacgtgcag cggcacctgt 1080
acgacatcga catcgacgcg ccacaggggc cggtccgggt ggagcgccag aacaaccaca 1140
gccgcctgtc ttcgcgcatc gcggaaatcg atgcgcgcgg cgtgttccag gtccgctggc 1200
agtcgcccga accgattcgc cccgaccctt atgtcgtcgt gcataacctc gacgactggt 1260
ccgccagcat gggcggggga ccgctcccat gagcgccaac tcgctgctcg gcagcctgcg 1320
cgagttgcag gtgctggtcc tcaacccgcc gggggaggtc agcgacgccc tggtcttgca 1380
gctgatccgc atcggttgtt cggtgcgcca gtgctggccg ccgccggaag ccttcgacgt 1440
gccggtggac gtggtcttca ccagcatttt ccagaatggc caccacgacg agatcgctgc 1500
gctgctcgcc gccgggactc cgcgcactac cctggtggcg ctggtggagt acgaaagccc 1560
cgcggtgctc tcgcagatca tcgagctgga gtgccacggc gtgatcaccc agccgctcga 1620
tgcccaccgg gtgctgcctg tgctggtatc ggcgcggcgc atcagcgagg aaatggcgaa 1680
gctgaagcag aagaccgagc agctccagga ccgcatcgcc ggccaggccc ggatcaacca 1740
ggccaaggtg ttgctgatgc agcgccatgg ctgggacgag cgcgaggcgc accagcacct 1800
gtcgcgggaa gcgatgaagc ggcgcgagcc gatcctgaag atcgctcagg agttgctggg 1860
aaacgagccg tccgcctgag cgatccgggc cgaccagaac aataacaaga ggggtatcgt 1920
catcatgctg ggactggttc tgctgtacgt tggcgcggtg ctgtttctca atgccgtctg 1980
gttgctgggc aagatcagcg gtcgggaggt ggcggtgatc aacttcctgg tcggcgtgct 2040
gagcgcctgc gtcgcgttct acctgatctt ttccgcagca gccgggcagg gctcgctgaa 2100
ggccggagcg ctgaccctgc tattcgcttt tacctatctg tgggtggccg ccaaccagtt 2160
cctcgag 2167
//
Output file format
Output files for usage example
File: x13776.cusp
#CdsCount: 1
#Coding GC 67.79%
#1st letter GC 67.88%
#2nd letter GC 46.89%
#3rd letter GC 88.60%
#Codon AA Fraction Frequency Number
GCA A 0.077 7.772 3
GCC A 0.462 46.632 18
GCG A 0.462 46.632 18
GCT A 0.000 0.000 0
TGC C 1.000 10.363 4
TGT C 0.000 0.000 0
GAC D 0.864 49.223 19
GAT D 0.136 7.772 3
GAA E 0.269 18.135 7
GAG E 0.731 49.223 19
TTC F 1.000 28.497 11
TTT F 0.000 0.000 0
GGA G 0.062 5.181 2
GGC G 0.719 59.585 23
GGG G 0.125 10.363 4
GGT G 0.094 7.772 3
CAC H 0.727 20.725 8
CAT H 0.273 7.772 3
ATA I 0.000 0.000 0
ATC I 0.800 41.451 16
ATT I 0.200 10.363 4
AAA K 0.000 0.000 0
AAG K 1.000 5.181 2
CTA L 0.000 0.000 0
CTC L 0.269 18.135 7
CTG L 0.577 38.860 15
CTT L 0.000 0.000 0
TTA L 0.000 0.000 0
TTG L 0.154 10.363 4
ATG M 1.000 15.544 6
AAC N 1.000 28.497 11
AAT N 0.000 0.000 0
CCA P 0.074 5.181 2
CCC P 0.222 15.544 6
CCG P 0.630 44.041 17
CCT P 0.074 5.181 2
CAA Q 0.062 2.591 1
CAG Q 0.938 38.860 15
AGA R 0.000 0.000 0
AGG R 0.029 2.591 1
CGA R 0.000 0.000 0
CGC R 0.629 56.995 22
CGG R 0.314 28.497 11
CGT R 0.029 2.591 1
AGC S 0.304 18.135 7
AGT S 0.087 5.181 2
TCA S 0.000 0.000 0
TCC S 0.261 15.544 6
TCG S 0.304 18.135 7
TCT S 0.043 2.591 1
ACA T 0.000 0.000 0
ACC T 0.733 28.497 11
ACG T 0.267 10.363 4
ACT T 0.000 0.000 0
GTA V 0.030 2.591 1
GTC V 0.394 33.679 13
GTG V 0.576 49.223 19
GTT V 0.000 0.000 0
TGG W 1.000 12.953 5
TAC Y 0.619 33.679 13
TAT Y 0.381 20.725 8
TAA * 0.000 0.000 0
TAG * 0.000 0.000 0
TGA * 1.000 2.591 1
The example shown reads a single CDS from Pseudomonas aeruginosa which
has a very high GC content and a strong coding bias, as shown by the
codons for Alanine where those ending with G or C are used almost
exclusively.
The columns are as follows: i. "Codon" (sequence of the codon). ii.
"AA" (the encoded amino acid). iii. "Fraction" (the proportion of usage
of the codon among its redundant set, i.e. the set of codons which code
for this codon's amino acid). iv. "Frequency" (the expected number of
codons, given the input sequence(s), per 1000 bases). This will be an
extrapolation if the sequence is shorter than 1000 bases. v. "Number"
(the observed number of codons in the input sequences).
If multiple sequences are input then the statistics are given for all
of the sequences together, not individually.
Data files
cusp reads a codon usage file as a template for it's output file. The
data in this table is ignored entirely. This functionality is
hard-coded and invisible to the user.
EMBOSS data files are distributed with the application and stored in
the standard EMBOSS data directory, which is defined by the EMBOSS
environment variable EMBOSS_DATA.
To see the available EMBOSS data files, run:
% embossdata -showall
To fetch one of the data files (for example 'Exxx.dat') into your
current directory for you to inspect or modify, run:
% embossdata -fetch -file Exxx.dat
Users can provide their own data files in their own directories.
Project specific files can be put in the current directory, or for
tidier directory listings in a subdirectory called ".embossdata". Files
for all EMBOSS runs can be put in the user's home directory, or again
in a subdirectory called ".embossdata".
The directories are searched in the following order:
* . (your current directory)
* .embossdata (under your current directory)
* ~/ (your home directory)
* ~/.embossdata
Notes
None.
References
None.
Warnings
None.
Diagnostic Error Messages
None.
Exit status
Always exits with status 0.
Known bugs
None.
See also
Program name Description
cai Calculate codon adaptation index
chips Calculate Nc codon usage statistic
codcmp Codon usage table comparison
codcopy Copy and reformat a codon usage table
syco Draw synonymous codon usage statistic plot for a nucleotide
sequence
Author(s)
Alan Bleasby
European Bioinformatics Institute, Wellcome Trust Genome Campus,
Hinxton, Cambridge CB10 1SD, UK
Please report all bugs to the EMBOSS bug team
(emboss-bug (c) emboss.open-bio.org) not to the original author.
History
Target users
This program is intended to be used by everyone and everything, from
naive users to embedded scripts.
Comments
None
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