
                               newcpgreport 



Function

   Identify CpG islands in nucleotide sequence(s)

Description

   newcpgreport identifies CpG islands in one or more nucleotide
   sequences. The ratio of observered to expected number of GC
   dinucleotides patterns is calculated over a window (sequence region)
   which is moved along the sequence. The calculated ratios are used to
   identify regions which match the program's definition of a "CpG
   island" (a CG dinucleotide rich area). A report file is written giving
   the input sequence name, CpG island parameters and data on any CpG
   islands that are found.

Algorithm

   The ratio of observered to expected number of GC dinucleotides
   patterns is calculated over a window of user-specified size (-window
   parameter). The window is slid along the sequence and the ratio
   recalculated until the end of the sequence is reached.

   By default, cpgplot defines a CpG island as a region where, over an
   average of 10 windows and not less than 200 bases, the calculated (%G
   + %C) content is over 50% and the calculated Observed/Expected ratio
   is over 0.6. These conditions can be modified by setting the values of
   the appropriate parameters.

   The Observed number of CpG patterns in a window is simply the number
   of times a C is found followed immediately by a G.

   The Expected number of CpG patterns is calculated for each window as
   the number of CpG dinucleotides you would expect to see in that window
   based on the frequency of C's and G's in that window. Thus, the
   Expected frequency of CpG's in a window is calculated as the number of
   Cs in the window multiplied by the number of Gs in the window, divided
   by the window length. Expected = (number of C's * number of G's) /
   window length

Usage

   Here is a sample session with newcpgreport


% newcpgreport 
Identify CpG islands in nucleotide sequence(s)
Input nucleotide sequence(s): tembl:u68037
Window size [100]: 
Shift increment [1]: 
Minimum Length [200]: 
Minimum observed/expected [0.6]: 
Minimum percentage [50.]: 
Output file [u68037.newcpgreport]: 

   Go to the input files for this example
   Go to the output files for this example

Command line arguments

   Standard (Mandatory) qualifiers:
  [-sequence]          seqall     Nucleotide sequence(s) filename and optional
                                  format, or reference (input USA)
   -window             integer    [100] Window size (Integer 1 or more)
   -shift              integer    [1] Shift increment (Integer 1 or more)
   -minlen             integer    [200] Minimum Length (Integer 1 or more)
   -minoe              float      [0.6] Minimum observed/expected (Number from
                                  0.000 to 10.000)
   -minpc              float      [50.] Minimum percentage (Number from 0.000
                                  to 100.000)
  [-outfile]           outfile    [*.newcpgreport] 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
   -sformat1           string     Input sequence format
   -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. 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

Input file format

   newcpgreport reads one or more nucleic acid sequences.

  Input files for usage example

   'tembl:u68037' is a sequence entry in the example nucleic acid
   database 'tembl'

  Database entry: tembl:u68037

ID   U68037; SV 1; linear; mRNA; STD; ROD; 1218 BP.
XX
AC   U68037;
XX
DT   23-SEP-1996 (Rel. 49, Created)
DT   04-MAR-2000 (Rel. 63, Last updated, Version 2)
XX
DE   Rattus norvegicus EP1 prostanoid receptor mRNA, complete cds.
XX
KW   .
XX
OS   Rattus norvegicus (Norway rat)
OC   Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Mammalia
;
OC   Eutheria; Euarchontoglires; Glires; Rodentia; Sciurognathi; Muroidea;
OC   Muridae; Murinae; Rattus.
XX
RN   [1]
RP   1-1218
RA   Abramovitz M., Boie Y.;
RT   "Cloning of the rat EP1 prostanoid receptor";
RL   Unpublished.
XX
RN   [2]
RP   1-1218
RA   Abramovitz M., Boie Y.;
RT   ;
RL   Submitted (26-AUG-1996) to the EMBL/GenBank/DDBJ databases.
RL   Biochemistry & Molecular Biology, Merck Frosst Center for Therapeutic
RL   Research, P. O. Box 1005, Pointe Claire - Dorval, Quebec H9R 4P8, Canada
XX
FH   Key             Location/Qualifiers
FH
FT   source          1..1218
FT                   /organism="Rattus norvegicus"
FT                   /strain="Sprague-Dawley"
FT                   /mol_type="mRNA"
FT                   /db_xref="taxon:10116"
FT   CDS             1..1218
FT                   /codon_start=1
FT                   /product="EP1 prostanoid receptor"
FT                   /note="family 1 G-protein coupled receptor"
FT                   /db_xref="GOA:P70597"
FT                   /db_xref="InterPro:IPR000276"
FT                   /db_xref="InterPro:IPR000708"
FT                   /db_xref="InterPro:IPR001244"
FT                   /db_xref="InterPro:IPR008365"
FT                   /db_xref="UniProtKB/Swiss-Prot:P70597"
FT                   /protein_id="AAB07735.1"
FT                   /translation="MSPYGLNLSLVDEATTCVTPRVPNTSVVLPTGGNGTSPALPIFS
M
FT                   TLGAVSNVLALALLAQVAGRLRRRRSTATFLLFVASLLAIDLAGHVIPGALVLRLYTA
G
FT                   RAPAGGACHFLGGCMVFFGLCPLLLGCGMAVERCVGVTQPLIHAARVSVARARLALAL
L
FT                   AAMALAVALLPLVHVGHYELQYPGTWCFISLGPPGGWRQALLAGLFAGLGLAALLAAL
V
FT                   CNTLSGLALLRARWRRRRSRRFRENAGPDDRRRWGSRGLRLASASSASSITSTTAALR
S
FT                   SRGGGSARRVHAHDVEMVGQLVGIMVVSCICWSPLLVLVVLAIGGWNSNSLQRPLFLA
V
FT                   RLASWNQILDPWVYILLRQAMLRQLLRLLPLRVSAKGGPTELSLTKSAWEASSLRSSR
H
FT                   SGFSHL"
XX
SQ   Sequence 1218 BP; 162 A; 397 C; 387 G; 272 T; 0 other;
     atgagcccct acgggcttaa cctgagccta gtggatgagg caacaacgtg tgtaacaccc        6
0
     agggtcccca atacatctgt ggtgctgcca acaggcggta acggcacatc accagcgctg       12
0
     cctatcttct ccatgacgct gggtgctgtg tccaacgtgc tggcgctggc gctgctggcc       18
0
     caggttgcag gcagactgcg gcgccgccgc tcgactgcca ccttcctgtt gttcgtcgcc       24
0
     agcctgcttg ccatcgacct agcaggccat gtgatcccgg gcgccttggt gcttcgcctg       30
0
     tatactgcag gacgtgcgcc cgctggcggg gcctgtcatt tcctgggcgg ctgtatggtc       36
0
     ttctttggcc tgtgcccact tttgcttggc tgtggcatgg ccgtggagcg ctgcgtgggt       42
0
     gtcacgcagc cgctgatcca cgcggcgcgc gtgtccgtag cccgcgcacg cctggcacta       48
0
     gccctgctgg ccgccatggc tttggcagtg gcgctgctgc cactagtgca cgtgggtcac       54
0
     tacgagctac agtaccctgg cacttggtgt ttcattagcc ttgggcctcc tggaggttgg       60
0
     cgccaggcgt tgcttgcggg cctcttcgcc ggccttggcc tggctgcgct ccttgccgca       66
0
     ctagtgtgta atacgctcag cggcctggcg ctccttcgtg cccgctggag gcggcgtcgc       72
0
     tctcgacgtt tccgagagaa cgcaggtccc gatgatcgcc ggcgctgggg gtcccgtgga       78
0
     ctccgcttgg cctccgcctc gtctgcgtca tccatcactt caaccacagc tgccctccgc       84
0
     agctctcggg gaggcggctc cgcgcgcagg gttcacgcac acgacgtgga aatggtgggc       90
0
     cagctcgtgg gcatcatggt ggtgtcgtgc atctgctgga gccccctgct ggtattggtg       96
0
     gtgttggcca tcgggggctg gaactctaac tccctgcagc ggccgctctt tctggctgta      102
0
     cgcctcgcgt cgtggaacca gatcctggac ccatgggtgt acatcctgct gcgccaggct      108
0
     atgctgcgcc aacttcttcg cctcctaccc ctgagggtta gtgccaaggg tggtccaacg      114
0
     gagctgagcc taaccaagag tgcctgggag gccagttcac tgcgtagctc ccggcacagt      120
0
     ggcttcagcc acttgtga                                                    121
8
//

Output file format

  Output files for usage example

  File: u68037.newcpgreport

ID   U68037  1218 BP.
XX
DE   CpG Island report.
XX
CC   Obs/Exp ratio > 0.60.
CC   % C + % G > 50.00.
CC   Length > 200.
XX
FH   Key              Location/Qualifiers
FT   CpG island       104..509
FT                    /size=406
FT                    /Sum C+G=269
FT                    /Percent CG=66.26
FT                    /ObsExp=0.81
FT   CpG island       596..924
FT                    /size=329
FT                    /Sum C+G=223
FT                    /Percent CG=67.78
FT                    /ObsExp=1.01
FT   numislands       2
//

Data files

   None.

Notes

   "CpG" refers to a C nucleotide immediately followed by a G. The 'p' in
   'CpG' refers to the phosphate group linking the two bases. Regions of
   genomic sequences rich in the CpG pattern or "CpG islands" are
   resistant to methylation and tend to be associated with genes which
   are frequently switched on. It's been estimated that about half of all
   mammalian genes, and, possibly all mammalian house-keeping genes, have
   a CpG-rich region around their 5' end. Non-mammalian vertebrates have
   some CpG islands that are associated with genes, but the association
   gets equivocal in the farther taxonomic groups. The detection of CpG
   island upstream of predicted exons or genes is evidence in support of
   a highly expressed gene.

   newcpgreport is used in the production of the CpG Island database
   'CPGISLE'. It produces a report for potential CpG islands in CPGISLE
   database entry format. See the FTP site:
   ftp://ftp.ebi.ac.uk/pub/databases/cpgisle/ for the finished database.

   As there is no official definition of what is a CpG island is or how
   to identify where they begin and end, we work with two definitions and
   thus two methods. These are:

   1. cpgplot and newcpgreport use a sliding window within which the
   Observed/Expected ratio of CpG is calculated. For a sequence region to
   reported as a CpG island, it must satisfy the following contraints:
  Observed/Expected ratio > 0.6
   % C + % G > 50%
   Sequence Length > 200

   2. newcpgseek and cpgreport use a running sum calculated from all
   positions in a sequence rather than a window to produce a score. If
   there is not a CG dinucleotide at a position, the score is
   decremented, if there is one, the score is incremented by a constant
   (user-defined) value. If the score for a region in the sequence is
   higher than a threshold (17 at the moment) then a putative island is
   declared. Sequence regions scoring above the threshold are searched
   for recursively.

   This method overpredicts islands but finds the smaller ones around
   primary exons. newcpgseek uses the same method as cpgreport but the
   output is different and more readable. For most purposes you should
   probably use newcpgreport rather than cpgreport. It is used to produce
   the human cpgisland database you can find on the EBI's ftp server as
   well as on the EBI's SRS server.

   newcpgseek and cpgreport both now display the actual CpG count, the
   (%C + %G) and the Observed/Expected ratio in the region where the
   score is above the threshold.

   The geecee program measures CG content in the entire input sequence
   and is not to be used to detect CpG islands. It can be useful for
   detecting sequences that MIGHT contain an island.

References

    1. Larsen F., Gundersen, G., Lopez L., Prydz H. "CpG island as Gene
       Markers in the Human Genome" Genomics 13:1095-1107 (1992)

Warnings

   None.

Diagnostic Error Messages

   None.

Exit status

   It always exits with a status of 0.

Known bugs

   None.

See also

   Program name Description
   cpgplot Identify and plot CpG islands in nucleotide sequence(s)
   cpgreport Identify and report CpG-rich regions in nucleotide
   sequence(s)
   geecee Calculate fractional GC content of nucleic acid sequences
   newcpgseek Identify and report CpG-rich regions in nucleotide
   sequence(s)

   As there is no official definition of what is a cpg island is, and
   worst where they begin and end, we have to live with 2 definitions and
   thus two methods. These are:

   1. newcpgseek and cpgreport - both declare a putative island if the
   score is higher than a threshold (17 at the moment). They now also
   display the actual CpG count, the % CG and the observed/expected
   ration in the region where the score is above the threshold. This
   scoring method based on sum/frequencies overpredicts islands but finds
   the smaller ones around primary exons. newcpgseek uses the same method
   as cpgreport but the output is different and more readable.

   2. newcpgreport and cpgplot use the method which mentioned in the
   Description section above. The important thing to note in this method
   is that an island, in order to be reported, is defined as a region
   that satisfies the following contraints:

   Obs/Exp ratio > 0.6
   % C + % G > 50%
   Length > 200.

   For all practical purposes you should probably use newcpgreport. It is
   actually used to produce the human cpgisland database you can find on
   the EBI's ftp server as well as on the EBI's SRS server.

   geecee measures CG content in the entire input sequence and is not to
   be used to detect CpG islands. It can be useful for detecting
   sequences that MIGHT contain an island.

Author(s)

   Rodrigo Lopez (rls  ebi.ac.uk)
   European Bioinformatics Institute, Wellcome Trust Genome Campus,
   Hinxton, Cambridge CB10 1SD, UK

History

   Written (1999) - Rodrigo Lopez.

Target users

   This program is intended to be used by everyone and everything, from
   naive users to embedded scripts.

Comments

   None
