Dear lady/sir

I would be grateful if you could answer the following questions regarding the
HRAS Homo sapiens Exon/Intron gene sequence found on web page:

http://www.ncbi.nlm.nih.gov/entrez/batchseq.cgi?dopt=graph&extrafeatP4&out=on&list_uidsQ493057&_fromG2130&_sfromG2130&_toG4729&_slenP00&_phrap=off

1. At the above address the gene is located on chromosome 11 approximately
between nts 472,150-475,570. According to Ensembl This gene can be found on
Chromosome 11 at location 522,243-525,550.
(From web page:
http://www.ensembl.org/Homo_sapiens/geneseqview?db=core&gene=ENSG00000174775&flank5_display`0&flank3_display`0&exon_display=core&exon_ori=all&snp_display=off&line_numbering=sequence&submit=Update)
Can you explain this discrepancy?

2.	Is there a text version (that can be copy/pasted) of this same sequence (with
Exons/Introns indicated)?

3.	Is there a reference to this sequence (with Exons/Introns indicated) in any
other web site (such as ncbi)?

Thank you

Uri Moran
MSc. Student
Tel Aviv University

First reply:

Dear Uri,
1) The difference between two databases is because each group has its
own assembly.

2) You may search in Gene database and see this gene's record.

http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?db=gene&cmd=Retrieve&doptfull_report&list_uids265

In a Full report page you may chose "Gene Table" from the "Display"
option pull down menu to see the text.

3) Links in the right side of the full report will show you where you
may obtain more information about this record.

Regards,
Simin

Second reply:

My guess is that that sequence you are looking for has derived from EST
(Expressed Sequence Tags), and translated to complementary DNA (cDNA).
This is the case with many genes in vast amount of species that
retrieved from mRNA. The RNA has gone splicing before the
reverse-transcription, and only the coding regions are in the gene-bank.
,
Yuval

Third reply:

Dear Uri!

Unfortunately I am not able to present the sequence to you, but I am
sure you can find what you need.
If you blast your mRNA with the human EST-library and the Human
WGS-library and align the results, you should be able to find the
sequence you need. I did that with several genes in sticklebacks.

Cheers,

Sascha

Fourth reply (complete correspondence):

Hi Uri,

I poked around the NCBI site some more, and I never was able to really see a
gene sequence annotated with the exons.  I can see a line drawing of the
sequence, but not the actual sequence.  If I am missing something, please
let me know.

I was able to download the gene sequence, unannotated, plus the sequences of
the mRNAs (alternative splicing).

So I aligned them (see attached file).

You can view this with JalView, BioEdit or any other multiple sequence
alignment editor.

All of the introns begin with GT and end with AG, which is the rule for most
eukaryotic genes.

Brian

On 6/5/06 9:25 AM, "moranuri@post.tau.ac.il" <moranuri@post.tau.ac.il>
wrote:

> Dear Brian
>
> Thank you very much for your reply.
>
> In case you are interested, see correspondence with NCBI help desk below.
>
> Regards,
> Uri

 +++++++++++++++++++++++++++++++++++++++++++
 This Mail Was Scanned By Mail-seCure System
 at the Tel-Aviv University CC.
----- End forwarded message -----
Correspondence with Brian T. Foley

Hi,

Note that in both cases, the Ras oncogene is on the other strand (you will
need the reverse compliment of the GenBank entry),
And no genes are annotated on either of these chromosome 11 sequences.  I
found Exon 1, so now you need to blast exon 2 against chromosome 11.

Let me know if you need help.

Brian

BLAST of RAS exon 1:

>gi|29650323|gb|AC137894.5| Download subject sequence spanning the HSP Homo
sapiens chromosome 11, clone RP13-46H24, complete sequence
Length5000

 Score =  119 bits (60),  Expect = 2e-25
 Identities = 60/60 (100%), Gaps = 0/60 (0%)
 Strand=Plus/Minus

Query  1       GGCAGGAGACCCTGTAGGAGGACCCCGGGCCGCAGGCCCCTGAGGAGCGATGACGGAATA
60
               ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Sbjct  156059  GGCAGGAGACCCTGTAGGAGGACCCCGGGCCGCAGGCCCCTGAGGAGCGATGACGGAATA
156000

http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=Nucleotide&lis
t_uids)650323&dopt=GenBank
LOCUS       AC137894              165000 bp    DNA     linear   PRI
09-APR-2003
DEFINITION  Homo sapiens chromosome 11, clone RP13-46H24, complete sequence.
ACCESSION   AC137894
VERSION     AC137894.5  GI:29650323
KEYWORDS    HTG.
SOURCE      Homo sapiens (human)
  ORGANISM  Homo sapiens
            Eukaryota; Metazoa; Chordata; Craniata; Vertebrata;
Euteleostomi;
            Mammalia; Eutheria; Euarchontoglires; Primates; Haplorrhini;
            Catarrhini; Hominidae; Homo.
REFERENCE   1  (bases 1 to 165000)
  AUTHORS   Birren,B., Nusbaum,C. and Lander,E.
  TITLE     Homo sapiens chromosome 11, clone RP13-46H24
  JOURNAL   Unpublished

>gi|28975150|gb|AC138374.2| Download subject sequence spanning the HSP Homo
sapiens chromosome 11, clone CTD-2647G13, complete sequence
Length6424

 Score =  119 bits (60),  Expect = 2e-25
 Identities = 60/60 (100%), Gaps = 0/60 (0%)
 Strand=Plus/Minus

Query  1      GGCAGGAGACCCTGTAGGAGGACCCCGGGCCGCAGGCCCCTGAGGAGCGATGACGGAATA
60
              ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Sbjct  50302  GGCAGGAGACCCTGTAGGAGGACCCCGGGCCGCAGGCCCCTGAGGAGCGATGACGGAATA
50243

http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=Nucleotide&lis
t_uids(975150&dopt=GenBank
LOCUS       AC138374              196424 bp    DNA     linear   PRI
16-MAR-2003
DEFINITION  Homo sapiens chromosome 11, clone CTD-2647G13, complete
sequence.
ACCESSION   AC138374
VERSION     AC138374.2  GI:28975150
KEYWORDS    HTG.
SOURCE      Homo sapiens (human)
  ORGANISM  Homo sapiens
            Eukaryota; Metazoa; Chordata; Craniata; Vertebrata;
Euteleostomi;
            Mammalia; Eutheria; Euarchontoglires; Primates; Haplorrhini;
            Catarrhini; Hominidae; Homo.
REFERENCE   1  (bases 1 to 196424)
  AUTHORS   Birren,B., Nusbaum,C. and Lander,E.
  TITLE     Homo sapiens chromosome 11, clone CTD-2647G13
  JOURNAL   Unpublished

On 6/5/06 9:25 AM, "moranuri@post.tau.ac.il" <moranuri@post.tau.ac.il>
wrote:

> Dear Brian
>
> Thank you very much for your reply.
>
> In case you are interested, see correspondence with NCBI help desk below.

Yes!  That is very interesting.

I have often wondered about the lack of annotation on these complete
chromosomes.  Now I see I am missing a lot.

http://www.ncbi.nlm.nih.gov/mapview/maps.cgi?taxid–06&chr&query=uid(142
21652)&QSTR265%5Bgene%5Fid%5D&maps=gene_set&cmd=focus

Has a Download/view sequence link where you can get the complete gene
sequence:

http://www.ncbi.nlm.nih.gov/sutils/evv.cgi?taxid–06&contig=NT_035113.6&fro
mG2510&toG4578

So, there is a lot of annotation done, and good links from the annotation
back to the complete chromosome entry, but I don't see any links in the
other direction, from the Chromosome 11 to it's annotation.

Brian

>
> Regards,
> Uri

Hi Uri,

I poked around the NCBI site some more, and I never was able to really see a
gene sequence annotated with the exons.  I can see a line drawing of the
sequence, but not the actual sequence.  If I am missing something, please
let me know.

I was able to download the gene sequence, unannotated, plus the sequences of
the mRNAs (alternative splicing).

So I aligned them (see attached file).

You can view this with JalView, BioEdit or any other multiple sequence
alignment editor.

All of the introns begin with GT and end with AG, which is the rule for most
eukaryotic genes.

Brian

Dear Brian
>
> Type the address below:
>
> http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?db=gene&cmd=Retrieve&dopt> full_report&list_uids265
>
> into the web site address rectangle.
>
> Make sure you get the whole address, ending with '265'.
>
> Then go to the Display rectangle (option) and scroll to 'Gene Table'.
>
> There you will find Exons (non coding and coding) and Introns of 2 HRAS
> isomorfs. click on any Exon/Intron and you get the complete sequence.
>
> Triple checked by me to match with the chromosome 11 sequence.
>
> Good luck,
>
> Uri
>

OK.

I can see this:

But is is still not simple to get the entire gene, all six exons, with
annotation or ³marked up² in some way to show introns and exons on the
sequence.

It looks to me, as if I would have to learn a whole new method of
interacting with GenBank/NCBI, if I for example wanted to compile an
alignment of all intron/exon boundaries in the human genome, to see if they
all begin with GT and end with AG.

I had always assumed that if there was annotation for a sequence, it would
end up in the GenBank entry¹s FEATURE table, and we would then write scripts
to parse that.

Right now, it is not clear to me, where the annotation of chromosome 11
really is.  How do I ask a question such as ³how many genes are on the short
arm?²?  Or ³What is the average gene length?²

Brian

moranuri@post.tau.ac.il