Chemistry: molecular biology and microbiology – Enzyme – proenzyme; compositions thereof; process for... – Hydrolase
Reexamination Certificate
1999-11-01
2001-07-17
Saidha, Tekchand (Department: 1652)
Chemistry: molecular biology and microbiology
Enzyme , proenzyme; compositions thereof; process for...
Hydrolase
C435S069100, C435S213000, C435S252300, C435S320100, C536S023100, C536S023200, C536S023600, C800S279000
Reexamination Certificate
active
06261821
ABSTRACT:
The present invention relates generally to proteinase inhibitors, a precursor thereof and to genetic sequences encoding same.
Nucleotide and amino acid sequences are referred to herein by sequence identity numbers (SEQ ID NOs) which are defined after the bibliography. A general summary of the SEQ ID NOs is provided before the examples.
Throughout this specification and the claims which follow, unless the context requires otherwise, the word “comprise”, or variations such as “comprises” or “comprising”, will be understood to imply the inclusion of a stated element or integer or group of elements or integers but not the exclusion of any other element or integer or group of elements or integers.
Several members of the families Solanaceae and Fabaceae accumulate serine proteinase inhibitors in their storage organs and in leaves in response to wounding (Brown and Ryan, 1984; Richardson, 1977). The inhibitory activities of these proteins are directed against a wide range of proteinases of microbial and animal origin, but rarely against plant proteinases (Richardson, 1977). It is believed that these inhibitors are involved in protection of the plants against pathogens and predators. In potato tubers and legume seeds, the inhibitors can comprise 10% or more of the stored proteins (Richardson, 1977), while in leaves of tomato and potato (Green and Ryan, 1972), and alfalfa (Brown and Ryan, 1984), proteinase inhibitors can accumulate to levels of 2% of the soluble protein within 48 hours of insect attack, or other types of wounding (Brown & Ryan, 1984; Graham et al., 1986). High levels of these inhibitors (up to 50% of total soluble protein) are also present in unripe fruits of the wild tomato,
Lycopersicon peruvianum
(Pearce et al., 1988).
There are two families of serine proteinase inhibitors in tomato and potato (Ryan, 1984). Type I inhibitors are small proteins (monomer Mr 8100) which inhibit chymotrypsin at a single reactive site (Melville and Ryan, 1970; Plunkett et al., 1982). Inhibitors of the type II family generally contain two reactive sites, one of which inhibits chymotrypsin and the other trypsin (Bryant et at, 1976; Plunkett et al., 1982). The type II inhibitors have a monomer Mr of 12,300 (Plunkett et al., 1982). Proteinase inhibitor I accumulates in etiolated tobacco (
Nicotiana tabacum
) leaves (Kuo et al., 1984), and elicitors from
Phytophthora parasitica
var.
nicotianae
were found to induce proteinase inhibitor I accumulation in tobacco cell suspension cultures (Rickauer et al., 1989).
There is a need to identify other proteinase inhibitors and to investigate their potential use in the development of transgenic plants with enhanced protection against pathogens and predators. In accordance with the present invention, genetic sequences encoding a proteinase inhibitor precursor have been cloned. The precursor has multi-proteinase inhibitor domains and will be useful in developing a range of transgenic plants with enhanced proteinase inhibitor expression. Such plants will have enhanced protective properties against pathogens and predators. The genetic constructs of the present invention will also be useful in developing vaccines for ingestion by insects which are themselves predators or which act as hosts for plant pathogens. The recombinant precursor or monomeric inhibitors will also be useful in topical sprays and in assisting animals in feed digestion.
Accordingly, one aspect of the present invention relates to a nucleic acid molecule comprising a sequence of nucleotides which encodes or is complementary to a sequence which encodes a type II serine proteinase inhibitor (PI) precursor from a plant wherein said precursor comprises at least three PI monomers and wherein at least one of said monomers has a chymotrypsin specific site and at least one other of said monomers has a trypsin specific site.
The “nucleic acid molecule” of the present invention may be RNA or DNA (eg cDNA), single or double stranded and linear or covalently closed. The nucleic acid molecule may also be genomic DNA corresponding to the entire gene or a substantial portion thereof or to fragments or derivatives thereof. The nucleotide sequence may correspond to the naturally occurring nucleotide sequence of the genomic or cDNA clone or may contain single or multiple nucleotide substitutions, deletions and/or additions thereto. All such variants in the nucleic acid molecule either retain the ability to encode at least one monomer or active part thereof or are useful as hybridisation probes or polymerase chain reaction (PCR) primers for the same or similar genetic sequences in other sources.
Preferably, the PI precursor comprises at least four, more preferably at least five and even more preferably at least six PI monomers. Still more preferably, the PI precursor further comprises a signal sequence. The PI precursor of the present invention preferably comprises amino acid sequences which are process sites for cleavage into individual monomers.
The term “precursor” as used herein is not intended to place any limitation on the utility of the precursor molecule itself or a requirement that the molecule first be processed into monomers before PI activity is expressed. The precursor molecule has PI activity and the present invention is directed to the precursor and to the individual monomers of the precursor.
Furthermore, the present invention extends to a nucleic acid molecule comprising a sequence of nucleotides which encodes or is complementary to a sequence which encodes a hybrid type II serine PI precursor wherein said precursor comprises at least two monomers from different PIs. The at least two monomers may be modified such as being unable to be processed into individual monomers or may retain the ability to be so processed. Preferably, at least one of said monomers has a chymotrypsin specific site and the other of said monomers has a trypsin specific site. Preferably there are at least three monomers, more preferably at least four monomers, still more preferably at least five monomers and yet still more preferably at least six monomers wherein at least two are from different PIs. In a most preferred embodiment, at least one of said monomers is a thionin. Such hybrid PI precursors and/or monomers thereof are particularly useful in generating molecules which are “multi-valent” in that they are active against a range of pathogens and predators such as both fungi and insects. Accordingly, reference herein to “PI precursor” includes reference to hybrid molecules.
The present invention is exemplified by the isolation of the subject nucleic acid molecule from
Nicotiana alata
which has the following nucleotide sequence (SEQ ID NO. 1) and a corresponding amino acid sequence (SEQ ID NO. 3):
AAC GCT TCT ACC TTA AAC
Lys Ala Cys Thr Leu Asn
TGT GAT CCA AGA ATT GCC TAT GGA GTT TGC CCG CCT TCA GAA GAA AAG
Cys Asp Pro Arg Ile ALa Tyr Gly Val Cys Pro Arg Ser glu Glu Lys
AAG AAT GAT CGG ATA TGC ACC AAC TGT TCC GCA GGC ACG AAG GGT TGT
Lys Asn Asp Arg Ile Cys Thr Asn Cys Cys Ala Gly Thr Lys Gly Cys
AAG TAC TTC AGT GAT GAT GGA ACT TTT GTT TGT GAA GGA GAG TCT GAT
Lys Tyr Phe Ser Asp Asp Gly Thr Phe Val Cys Glu Gly Glu Ser Asp
CCT AGA AAT CCA AAG GCT TGT ACC TTA AAC TGT GAT CCA AGA ATT GCC
Pro Arg Asn Pro Lys Ala Cys Thr Leu Asn Cys Asp Pro Arg Ile Ala
TAT GGA GTT TGC CCG CGT TCA GAA GAA AAG AAG AAT GAT CGG ATA TGC
Tyr Gly Val Cys Pro Arg Ser Glu Glu Lys Lys Asn Asp Arg Ile Cys
ACC AAC TGT TCC GCA GGC ACG AAG GGT TGT AAG TAC TTC AGT GAT GAT
Thr Asn Cys Cys Ala Gly Thr Lys Gly Cys Lys Tyr Phe Ser Asp Asp
GGA ACT TTT GTT TGT GAA GGA
Anderson Marilyn Anne
Atkinson Angela Hilary
Clarke Adrienne Elizabeth
Heath Robyn Louise
Saidha Tekchand
Scully Scott Murphy & Presser
The University of Melbourne
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