Variant aequorin genes and process for producing variant aequorin proteins

US 5,093,240 A
Filed: 10/08/1987
Issued: 03/03/1992
Est. Priority Date: 10/15/1986
Status: Expired due to Term

First Claim

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1. A DNA molecule encoding a variant aequorin photoprotein, said DNA molecule comprising a nucleotide sequence derived from the following nucleotide sequence of pAQ440 aequorin gene:

##STR19## wherein said derived nucleotide sequence varies from the nucleotide sequence of pAQ440 aequorin gene according to at least one member selected from the group consisting of the following;

(i) the 220th nucleotide is converted from G to C;

(ii) the 238th nucleotide is converted from G to A;

(iii) the 307th nucleotide is converted from C to T and the 308th nucleotide is converted from A to T;

(iv) the 499th nucleotide is converted from G to C;

(v) the 568th nucleotide is converted from T to C;

(vi) the 569th nucleotide is converted from G to C;

(vii) the 590th nucleotide is converted from G to C;

(viii) the 607th nucleotide is converted from G to C;

(ix) the 625th nucleotide is converted from G to A;

(x) the 616th nucleotide is converted from G to C and the 625th nucleotide is converted from G to A;

(xi) the 674th nucleotide is converted from G to C;

(xii) the 205th through the 207th nucleotides are deleted (GAT); and

(xiii) the 592th through the 594th nucleotides are deleted (GAT).

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Abstract

Various variants of photoprotein aequorin (pAQ440), useful for elucidating the mechanism of its luminescence and thereby extending the possibility of concrete applications of aequorin protein, and a process for producing variant aequorin proteins are provided, which variants are obtained by converting base(s) in a specified order of the base arrangement of aequorin gene into other base(s), or by deleting a certain bases in specified continued orders thereof, according to site-specific mutagenesis method.

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4 Claims

1. A DNA molecule encoding a variant aequorin photoprotein, said DNA molecule comprising a nucleotide sequence derived from the following nucleotide sequence of pAQ440 aequorin gene:
- ##STR19## wherein said derived nucleotide sequence varies from the nucleotide sequence of pAQ440 aequorin gene according to at least one member selected from the group consisting of the following;
  
  (i) the 220th nucleotide is converted from G to C;
  
  (ii) the 238th nucleotide is converted from G to A;
  
  (iii) the 307th nucleotide is converted from C to T and the 308th nucleotide is converted from A to T;
  
  (iv) the 499th nucleotide is converted from G to C;
  
  (v) the 568th nucleotide is converted from T to C;
  
  (vi) the 569th nucleotide is converted from G to C;
  
  (vii) the 590th nucleotide is converted from G to C;
  
  (viii) the 607th nucleotide is converted from G to C;
  
  (ix) the 625th nucleotide is converted from G to A;
  
  (x) the 616th nucleotide is converted from G to C and the 625th nucleotide is converted from G to A;
  
  (xi) the 674th nucleotide is converted from G to C;
  
  (xii) the 205th through the 207th nucleotides are deleted (GAT); and
  
  (xiii) the 592th through the 594th nucleotides are deleted (GAT).

2. A process for producing a variant aequorin photoprotein, said process comprising the steps ofpreparing a DNA molecule encoding a variant aequorin photoprotein, said DNA molecule comprising a nucleotide sequence derived from the following nucleotide sequence of pAQ440 aequorin gene:
- ##STR20## wherein said derived nucleotide sequence varies from the nucleotide sequence of pAQ440 aequorin gene according to at least one member selected from the group consisting of the following;
  
  (i) the 220th nucleotide is converted from G to C;
  
  (ii) the 238th nucleotide is converted from G to A;
  
  (iii) the 307th nucleotide is converted from C to T and the 308th nucleotide is converted from A to T;
  
  (iv) the 499th nucleotide is converted from G to C;
  
  (v) the 568th nucleotide is converted from T to C;
  
  (vi) the 569th nucleotide is converted from G to C;
  
  (vii) the 590th nucleotide is converted from G to C;
  
  (viii) the 607th nucleotide is converted from G to C;
  
  (ix) the 625th nucleotide is converted from G to A;
  
  (x) the 616th nucleotide is converted from G to C and the 625th nucleotide is converted from G to A;
  
  (xi) the 674th nucleotide is converted from G to C;
  
  (xii) the 205the through the 207th nucleotides are deleted (GAT); and
  
  (xiii) the 592th through the 594th nucleotides are deleted (GAT),transforming a bacterial cell with said DNA molecule, wherein the bacterial cell is capable of producing the variant aequorin photoprotein from said DNA molecule,cultivating the bacterial cell, andobtaining the variant aequorin photoprotein from the bacterial cell.

3. A DNA molecule encoding a variant aequorin photoprotein, said DNA molecule comprising a nucleotide sequence derived from the following nucleotide sequence of pAQ440 aequorin gene:
- ##STR21## wherein said derived nucleotide sequence varies from the nucleotide sequence of pAQ440 aequorin gene according to at least one member selected from the group consisting of the following;
  
  (i) the 569th nucleotide is converted from G to C and the 590th nucleotide is converted from G to C;
  
  (ii) the 590th nucleotide is converted from G to C and the 674th nucleotide is converted from G to C;
  
  (iii) the 674th nucleotide is converted from G to C and the 569th nucleotide is converted from G to C;
  
  (iv) the 569th nucleotide is converted from G to C, the 590th nucleotide is converted from G to C, and the 674th nucleotide is converted from G to C.

4. A process for producing a variant aequorin photoprotein, said process comprising the steps ofpreparing a DNA molecule encoding a variant aequorin photoprotein, said DNA molecule comprising a nucleotide sequence derived from the following nucleotide sequence of pAQ440 aequorin gene:
- ##STR22## wherein said derived nucleotide sequence varies from the nucleotide sequence of pAQ440 aequorin gene according to at least one member selected from the group consisting of the following;
  
  (i) the 569th nucleotide is converted from G to C and the 590th nucleotide is converted from G to C;
  
  (ii) the 590th nucleotide is converted from G to C and the 674the nucleotide is converted from G to C;
  
  (iii) the 674th nucleotide is converted from G to C and the 569th nucleotide is converted from G to C;
  
  (iv) the 569th nucleotide is converted from G to C, the 590th nucleotide is converted from G to C, and the 674th nucleotide is converted from G to C,transforming a bacterial cell with said DNA molecule, wherein the bacterial cell is capable of producing the variant aequorin photoprotein from said DNA molecule,cultivating the bacterial cell, andobtaining the variant aequorin photoprotein from the bacterial cell.

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Current Assignee
Chisso Corporation
Original Assignee
Chisso Corporation
Inventors
Inouye, Satoshi, Sakaki, Yoshiyuki, Kurose, Kouichi
Primary Examiner(s)
Schwartz, Richard A.
Assistant Examiner(s)
Ellis, Joan

Application Number

US07/105,602
Time in Patent Office

1,608 Days
Field of Search

435/68, 435/70, 435/91, 435/172.1, 435/172.3, 435/252.33, 435/320, 435/69.1, 435/71.2, 435/252.3, 536/27, 530/350, 935/16, 935/29, 935/41, 935/56, 935/60, 935/73
US Class Current

435/69.1
CPC Class Codes

C07K 14/43595 from coelenteratae, e.g. me...

Variant aequorin genes and process for producing variant aequorin proteins

First Claim

1 Assignment

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Abstract

22 Citations

4 Claims

Specification

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Variant aequorin genes and process for producing variant aequorin proteins

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

22 Citations

4 Claims

Specification

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