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Rational selection of putative peptides from identified nucleotide or peptide sequences

a nucleotide or peptide sequence and selection method technology, applied in the direction of dna preparation, material analysis, instruments, etc., can solve the problems of difficult discovery of a new protein, limited success of conventional protein isolation techniques described above in the isolation and identification of new biological molecules, and the isolation of potentially new polypeptides is quite unfocused

Inactive Publication Date: 2002-05-16
SOC DE CONSEILS DE RECH & DAPPLICATIONS SCI SAS
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0047] Another subject of the present invention is to provide a method for identifying a putative peptide of a given function which facilitates pharmacological study of active substances having a fundamental physiological role in an organism such as hormones and, more particularly, amidated polypeptide hormones.

Problems solved by technology

Unfortunately, at the present time, the discovery of a new protein is not easy.
The conventional protein isolation techniques described above provide only limited success in the isolation and identification of new biological molecules of interest.
In the former situation, the isolation of potentially new polypeptides is quite unfocussed given its likelihood of isolating compounds of completely unrelated biological function.
By complete contrast, the latter situation suffers the exact opposite deficiency in that it enables isolation of only a very limited number of new biologically interesting molecules.
Thus, a person skilled in the art seeking to isolate potentially new polypeptides of interest by conventional protein separation techniques was confronted with the constant dilemma of obtaining a hodgepodge of biologically unrelated polypeptides or, alternatively, only a very specific set of polypeptides.
Another serious shortcoming of conventional techniques for the isolation of new polypeptides from a sample is linked to the nature of the sample itself.
Obviously, there will be a limited number of available polypeptides for isolation and identification in any given biological sample.
Where identification of substantial numbers of new polypeptides capable of amidation is the goal, conventional isolation techniques such as these are completely unsuitable, as they typically permit isolation of only a single polypeptide of interest from a source likely to contain that polypeptide.
Although giving rise to numerous significant advantages in terms of the ability to rapidly obtain a large number of putative candidate peptide molecules which serve as precursors to peptides comprising an amidated C-terminal end, there are nonetheless still certain difficulties linked to the use of a cDNA bank for carrying out the selection by screening.
This means that even if it is present within the genome of the cell, the screening method will not detect a putative peptide if that peptide is not expressed in that cell.
Furthermore, even to the extent that a polypeptide of interest is expressed in the cell, the screening technique is necessarily limited to polypeptides expressed by that particular cell and, indeed, by the particular species of life from which the cell is derived.
This makes it difficult to screen for the vast numbers of putative peptides which are of interest.

Method used

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Examples

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Effect test

example ic

6 sub.50 = 100 .mu.M Example IC.sub.50 = 100 .mu.M 7 0.43 16 0.08 8 4.2 17 0.68 9 0.22 18 0.8 10 0.03 19 0.7 11 0.27 20 0.35 12 0.02 21 0.16 13 0.09 22 2.8 14 0.86 23 1.3 15 0.36 24 0.23 25 0.31 48 1.47 26 0.7 to 22 49 0.33 27 0.68 50 1 28 0.4 51 0.14 29 0.01 52 7 30 27 53 0.01 to 1 31 0.02 to 2 54 0.3 32 0.2 55 0.004 to 1 33 0.1 56 0.73 34 1 57 0.06 35 5.6 58 0.86 36 2.9 59 0.41 37 0.8 60 <0.1 to 4 38 0.5 61 1.11 39 0.4 62 0.67 40 0.13 63 0.02 41 0.25 64 0.001 42 0.56 65 4 43 0.05 66 0.002 44 0.1 67 0.16 45 0.7 68 0.025 46 0.1 69 0.037 47 0.3

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Abstract

The present invention relates to a method for identifying putative peptides from nucleotides or peptide sequences of unknown function such as both nucleic acid and peptide precursors of a peptide comprising an amidated C-terminal end and, more particularly, to a method wherein putative peptide precursors are identified from a genetic database.

Description

PRIOR ART RELEVANT TO THE INVENTION[0001] (i) Field of the Invention[0002] The present invention relates to a method for identifying putative peptides from nucleotide or peptide sequences of unknown function such as both nucleic acid and peptide precursors of a peptide comprising an amidated C-terminal end and, more particularly, to a method wherein putative peptide precursors are identified from a genetic database.[0003] (ii) Description of Related Art[0004] Certain combinations of nucleotides, when present in a polynucleotide, are known to give rise to certain properties in the polypeptide translated there from. One example includes those nucleotides which encode polypeptide hormone precursors which undergo a post-translation amidation reaction. Another example, as disclosed in U.S. Pat. No. 4,917,999, relates to certain nucleotides which are characteristic of polypeptides exhibiting .alpha.-amylase enzymatic activity.[0005] Amidated polypeptide hormones are synthesized in the for...

Claims

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Application Information

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IPC IPC(8): C12N15/10
CPCC12N15/1089
Inventor CAMARA Y. FERRER, JOSE-ANTONIOTHURIEAU, CHRISTOPHEMARTINEZ, JEANBERGE, GILBERTGOZE, CATHERINE
Owner SOC DE CONSEILS DE RECH & DAPPLICATIONS SCI SAS
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