Trehalose synthase protein, gene, plasmids, microorganisms,...

Chemistry: molecular biology and microbiology – Enzyme – proenzyme; compositions thereof; process for... – Isomerase

Reexamination Certificate

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C435S100000, C435S320100, C435S252900, C435S252330, C536S023200

Reexamination Certificate

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06800474

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a trehalose-producing microorganism and a process for producing trehalose. It also relates to a novel trehalose synthase protein, a trehalose synthase gene, recombinant plasmids carrying said trehalose synthase gene, and transformed microorganisms with said recombinant plasmids.
2. Description of the Prior Art
Trehalose is a non-reducing disaccharide, two saccharides of which are linked by &agr;-1,1 bond: &agr;-D-glucopyranosyl-&agr;-D-glucopyranoside. It has wide application in medicines, foods, and cosmetics. However, its utilization has been greatly restricted because its production to date has been inefficient and expensive.
Japanese Laid-open Patent Nos. Hei5-91890 and Hei6-145186 disclose methods for extracting trehalose from yeasts. There are several methods for isolating trehalose from fermented microorganism cultures, such as Arthrobacter (T. Suzuki, Agric. Biol. Chem., 33(2), 1969), Nocardia (Japanese Laid-open Patent No. Sho 50-154485), Micrococcus (Japanese Laid-open Patent No. Hei6-319578), amino acid-fermenting yeast, Brevibacterium (Japanese Laid-open Patent No. Hei5-211882), and yeast (Yoshikwa, etc., Biosci. Biotech. Biochem., 1994, 58, 1226-12300). Additionally, a method for producing trehalose by using recombinant plants including bacterial genes capable of converting glucose into trehalose is described in M. Scher, Food Processing, April, 95-96, 1993. Japanese Laid-open Patent No. 83-216695 discloses a method for converting maltose into trehalose by using maltose phosphorylase and trehalose phosphorylase. However, these methods are not effective, because their procedures are complicated and their yields are low.
Several enzymatic methods have been published recently. Japanese Laid-open Patent No. Hei7-143876 and EPO 628630 A2 discloses a two-step enzymatic conversion method in which starch is converted into trehalose by maltooligosyl trehalose synthase and maltooligosyl trehalose trehalohydrolase. Japanses Laid-open Patent No. Hei7-170977 and Korean Laid-open Patent No.95-3444 disclose one-step enzymatic conversion methods in which maltose is directly converted into trehalose by trehalose synthase. However, there is still a need to increase the titer of the trehalose synthase enzyme so that production of trehalose from maltose becomes more efficient in yield and cost.
We have invested much effort over the last several years in isolating microorganisms able to convert maltose into trehalose from soil. We have successfully screened a novel strain which highly expresses trehalose and, unexpectedly, generates no byproducts, unlike all known microorganisms. Its morphological and physiological characteristics identify it as a novel
Pseudomonas stutzeri
strain. This strain has been designated as
Pseudomonas stutzeri
CJ38.
We isolated a trehalose synthase gene from chromosomes of
Pseudomonas stutzeri
CJ38 and determined its nucleotide sequence by cloning it into known vector pUC 18 with restriction enzyme Sau3AI. In addition, we isolated a trehalose synthase protein from
Pseudomonas stutzeri
CJ38 and determined its amino acid sequence using standard methods. It was found that these sequences are apparently different from the sequences of the trehalose synthase gene and all proteins known hitherto. This invention was achieved by constructing recombinant plasmnids carrying the trehalose synthase gene so that the trehalose synthase enzyme encoded in said gene can be expressed in large amounts.
SUMMARY OF THE INVENTION
The present invention provides a novel microorganism,
Pseudomonas stutzeri
CJ38, that produces trehalose from maltose. This strain was deposited at the Korea Culture Center of Microorganisms, Seoul, Korea, as the accession number KCCM 10150 on Feb. 12, 1999 under the Budapest Treaty. This strain is very valuable as it does not generate byproducts such as glucose when converts maltose into trehalose.
The present invention also provides SEQ ID NO: 2, which is a novel trehalose synthase protein with the following amino acid sequence:
Met  Ser  Ile  Pro  Asp  Asn  Thr  Tyr  Ile  Glu  Trp  Leu  Val  Ser  Gln

                    5                        10                       15

Ser  Met  Leu  His  Ala  Ala  Arg  Glu  Arg  Ser  Arg  His  Tyr  Ala  Gly

                    20                       25                       30

Gln  Ala  Arg  Leu  Trp  Gln  Arg  Pro  Try  Ala  Gln  Ala  Arg  Pro  Arg

                    35                       40                       45

Asp  Ala  Ser  Ala  Ile  Ala  Ser  Val  Trp  Phe  Thr  Ala  Tyr  Pro  Ala

                    50                       55                       60

Ala  Ile  Ile  Thr  Pro  Glu  Gly  Gly  Thr  Val  Leu  Glu  Ala  Leu  Gly

                    65                       70                       75

Asp  Asp  Arg  Leu  Trp  Ser  Ala  Leu  Ser  Glu  Leu  Gly  Val  Gln  Gly

                    80                       85                       90

Ile  His  Asn  Gly  Pro  Met  Lys  Arg  Ser  Gly  Gly  Leu  Arg  Gly  Arg

         &ems

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