US 6331414 B1 - Preparation Of Human Igf Via Recombinant Dna Technology - The Lens - Free & Open Patent and Scholarly Search

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US 6331414 B1

Preparation Of Human Igf Via Recombinant Dna Technology

Published: Dec 18, 2001
Earliest Priority: Jun 06 1983
Family: 21
Cited Works: 99
Cited by: 9
Cites: 43
Additional Info: Cited Works Full text Published

Abstract

Human insulin-like growth factors is synthesized in recombinant cell culture by host cells transformed with expression vectors bearing DNA encoding human insulin-like growth factors.

Claims

A process for producing human IGF-I comprising preparing a replicable expression vector capable of expressing the DNA sequence encoding human IGF-I in a prokaryotic host cell, transforming a prokaryotic host cell culture with said vector to obtain a recombinant host cell, culturing said recombinant host cell culture under conditions permitting expression of said human IGF-I-encoding DNA sequence to produce human IGF-I, and recovering said human IGF-I.
The process of claim 1 wherein the prokaryote is E. coli.
The process of claim 1 wherein the IGF-I is recovered from refractile bodies.
The process of claim 1 wherein the prokaryotic host cell is a bacterial host cell.
A method for producing human IGF-I comprising preparing a replicable expression vector capable of expressing in prokaryotic cells a DNA sequence encoding a fusion protein comprising the amino acid sequence of mature human IGF-I and a bacterial protein, transforming prokaryotic cells with said vector, culturing said transformed cells under conditions permitting expression of said DNA sequence to produce the fusion protein, recovering the fusion protein from the culture, and cleaving the fusion protein to obtain mature human IGF-I, wherein the prokaryotic cells are capable of such expression and of processing the IGF-I.
The method of claim 5 wherein the IGF-I is recovered from refractile bodies.
The method of claim 5 wherein the prokaryotic cells are bacterial cells.
A process for producing mature human IGF-I comprising culturing a recombinant prokaryotic host cell transformed with a replicable expression vector capable of expressing a DNA sequence encoding human IGF-I, under conditions permitting expression of said encoding DNA sequence, and recovering therefrom mature human IGF-I having the proper amino terminus (gly).
A process for producing mature human IGF-I comprising culturing a recombinant prokaryotic host cell, transformed with a replicable expression vector capable of expressing in a suitable host cell a DNA sequence encoding a fusion protein comprised of human IGF-I fused at the N-terminus of the IGF-I to amino acid sequence exogenous to human IGF-I, under conditions permitting expression of the DNA sequence, and cleaving the fusion protein to release mature human IGF-I having the proper amino terminus (gly).
A process according to claim 9 wherein the cleavage is effected with an enzyme.

Owners (US)

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Applicants

Genentech Inc
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Inventors

Lee James M
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Ullrich Axel
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CPC Classifications

C12N9/2408
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A61K38/00
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C07K14/485
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C07K14/65
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C07K2319/00
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C07K2319/02
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C07K2319/036
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C07K2319/75
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C12N15/81
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IPC Classifications

A61K35/74
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A61K38/00
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A61K38/28
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C07H21/04
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C07K14/485
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C07K14/65
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C12N1/18
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C12N1/19
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C12N1/20
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C12N1/21
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C12N9/26
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C12N15/00
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C12N15/09
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C12N15/81
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C12P21/00
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C12P21/02
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C12R1/19
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C12R1/865
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US Classifications

435/69.4
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435/69.7
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435/69.8
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435/320.1
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435/252.3
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435/252.33
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Document History

Publication: Dec 18, 2001
US 6331414 B1
Application: Jun 5, 1995
US 46425595 A
Priority: Jun 5, 1995
US 46425595 A
Priority: Jun 20, 1983
US 50607883 A
Priority: Jun 6, 1983
US 50135383 A

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