A 20-kDa protein with the GTP-binding and trypsin inhibitory activities from Glycine max

A 20-kDa protein (p20) with a GTP binding activity was purified from the cultured cells of Glycine max (soybean). The amino acid sequence of p20 showed 65% identity in a 23 amino acid overlap against the Kunitz-type trypsin inhibitor of soybean reported. Furthermore, it was found that a Kunitz-type soybean trypsin inhibitor of commercial origin also binds GTP.     

A 20-kDa Protein with the GTP-Binding and Trypsin Inhibitory Activities from Glycine max

A 20-kDa protein (p20) with a GTP binding activity was purified from the cultured cells of Glycine max (soybean). The amino acid sequence of p20 showed 65% identity in a 23 amino acid overlap against the Kunitz-type trypsin inhibitor of soybean reported. Furthermore, it was found that a Kunitz-type soybean trypsin inhibitor of commercial origin also binds GTP.     

黑豆种子中一种耐热型胰蛋白酶抑制剂的分离及性质表征

应用硫酸铵分级沉降、弱阳交换色谱CM-Sephadex C-50、凝胶过滤 色谱Sephacryl S-200HR、强阳离子高效液相色谱POROS HS-20,从黑豆种 子中分离纯化一种耐热型蛋白酶抑制剂,命名为TSTI.该蛋白的Ｎ末端序列 为DEYSKPCCDLCMCTRRCPPQ,与豆科植物Bowman-Birk型胰蛋白酶抑制剂具有 高度同源性,推测其属于Bowman-Birk型胰蛋白酶抑制剂.SDS－PAGE和IEF 测出TSTI分子量和等电点分别为23.9 kD 和6.2.TSTI对胰蛋白酶有很强的 抑制作用,当二者摩尔比达到1时,胰蛋白酶活力被完全抑制.此外,该蛋 白酶抑制剂具有很强的热稳定性和pH稳定性,在高达100 ℃温度及pH2-12 范围内处理,其活性均不会受到太大影响.TSTI对植物致病菌苹果轮纹病菌 、瓜果腐霉病菌、白菜黑斑病菌、甜瓜枯萎病菌和葡萄灰霉病菌具有抑制 作用.     

The complete amino acid sequence of rice bran trypsin inhibitor

The complete amino acid sequence of a double-headed trypsin inhibitor (RBTI) from rice bran was determined by a combination of limited proteolysis of the native inhibitor with Streptomyces griseus trypsin at pH 3 and conventional methods. RBTI consists of 133 amino acid residues including 18 half-cystine residues which are involved in 9 disulfide bridges in the molecule. The limited proteolysis at pH 3 produced a major split of Lys(83)-Met(84) and a minor split of Arg(107)-Val(108) together with a non-enzymatic hydrolysis of Asp(19)-Pro(20) in the molecule. The established sequence showed that RBTI is composed of 4 domains, domains I and III, and domains II and IV being homologous to the first and the second domains of soybean Bowman-Birk inhibitor, respectively, indicating that RBTI has a duplicated structure of the Bowman-Birk type inhibitor.     

Studies on soybean trypsin inhibitors. XI. Complete amino acid sequence of a soybean trypsin-chymotrypsin-elastase inhibitor, C-II

Soybean inhibitor C-II, which inhibits trypsin, alpha-chymotrypsin, and elastase, was reduced and S-carboxymethylated, and digested with trypsin. The amino acid sequences of the resulting tryptic peptides were determined by conventional methods, establishing the complete 76-amino acid sequence of the inhibitor. Inhibitor C-II was found to be homologous with soybean (Glycine max) Bowman-Birk inhibitor and more closely related to an inhibitor from garden beans (Phaseolus vulgaris). The homology with these inhibitors and the limited proteolysis of C-II indicated the reactive sites of C-II for elastase and trypsin to be alanine-22 and arginine-49, respectively. Arginine-49 was also identified as a reactive site for alpha-chymotrypsin. It was found that only a few replacements of one or two amino acid residues around the reactive sites resulted in considerable alteration of the inhibitory specificity.     

Amino acid sequences of two trypsin inhibitors from winged bean seeds (Psophocarpus tetragonolobus (L)DC.)

The trypsin inhibitor (WTI-1) purified from winged bean seeds is a Kunitz type protease inhibitor having a molecular weight of 19,200. WTI-1 inhibits bovine trypsin stoichiometrically, but not bovine alpha-chymotrypsin. The approximate Ki value for the trypsin-inhibitor complex is 2.5 X 10(-9) M. The complete amino acid sequence of WTI-1 was determined by conventional methods. Comparison of the sequence with that of soybean trypsin inhibitor (STI) indicated that the sequence of WTI-1 had 50% homology with that of STI. WTI-1 was separated into 2 homologous inhibitors, WTI-1A and WTI-1B, by isoelectric focusing. The isoelectric points of WTI-1A and WTI-1B were 8.5 and 9.4, respectively, and their sequences were presumed from their amino acid compositions.     

山东产野生大豆胰蛋白酶抑制剂的初步研究

该实验建立了HPLC测定大豆胰蛋白酶抑制剂(STI)活性的方法,并对山东产野生大豆(G.soja)与同地区产的黑豆和黄豆(G.max)的胰蛋白酶抑制活性差异进行了比较.用耦合了胰蛋白酶的亲合色谱柱对野生大豆的STI进行分离纯化,紫外分光光度法比较3种大豆的STI含量;PCR结合TA克隆技术对野生大豆STI中的Kunitz型(KSTI)蛋白基因编码区的氨基酸顺序进行初步测定.结果发现,山东产野生大豆的STI活性和含量均高于同地区产的黑豆和黄豆;山东产野生大豆的KSTI蛋白基因编码区的氨基酸顺序与已知的Tia型基本一致,仅第59位氨基酸由于单核苷酸的置换发生了Ser→Thr的转变,此位置位于活性中心附近.研究表明,山东产野生大豆胰蛋白酶抑制活性较强,且含量高.     

Amino acid sequence of winged bean (Psophocarpus tetragonolobus (L.) DC.) chymotrypsin inhibitor, WCI-3

The complete amino acid sequence of winged bean chymotrypsin inhibitor 3 (WCI-3) was determined by the conventional methods. WCI-3 consisted of 183 amino acid residues, but was heterogeneous in the carboxyl terminal region owing to the loss of one to four carboxyl terminal amino acid residues. The sequence of WCI-3 was highly homologous with those of soybean trypsin inhibitor Tia, winged bean trypsin inhibitor WTI-1, and Erythrina latissima trypsin inhibitor DE-3. One of the reactive site peptide bonds of WCI-3 was identified as Leu(65)-Ser(66), which was located at the same position as those of the other Kunitz-family leguminous proteinase inhibitors.     

Amino acid sequence of a crystalline seed albumin (winged bean albumin-1) from Psophocarpus tetragonolobus (L.) DC. Sequence similarity with Kunitz-type seed inhibitors and 7S storage globulins

The complete amino acid sequence of winged bean albumin-1 (WBA-1) of Psophocarpus tetragonolobus (L.) DC has been determined. The protein consists of a single polypeptide chain of 175 amino acid residues, with one disulfide bond, corresponding to a molecular mass of 19333 Da. WBA-1 was found to be homologous with the Kunitz-type seed trypsin inhibitors. The similarity between WBA-1 and the trypsin inhibitors from soybean and winged bean was 38% and 28%, respectively; similarity was most marked in the C-terminal third of the sequence with identities of 47% and 37%, respectively. Significant similarity was found also between the 2S Kunitz-type proteins and the carboxy-terminal region of the 7S storage globulins, suggesting that these two groups of proteins are related and may have evolved from a common ancestral precursor. Circular dichroism measurements suggest a high content of beta sheet (52%) while secondary structure predictions based on amino acid sequence indicate a similar content and distribution of beta sheet to that found for soybean trypsin inhibitor by X-ray diffraction studies.     

Purification and characterization of aprotinin from porcine lungs

Aprotinin, the most studied serine proteinase inhibitor, was isolated from porcine lung for the first time. The purified porcine aprotinin had an Mr value of ∼7 kDa. It cross-reacted with polyclonal serum anti-commercial aprotinin. About 1 μg porcine aprotinin inhibited 6 μg trypsin whereas 1 μg commercial soybean inhibitor inhibited only 1 μg trypsin. The aprotinin gene was also isolated from porcine lung: the deduced amino acid sequence showed 74% identity to bovine aprotinin.     

Genetic characterization of a novel Tib-derived variant of soybean Kunitz trypsin inhibitor detected in wild soybean (Glycine soja).

A novel variant of soybean Kunitz trypsin inhibitor (SKTI) was detected in 530 lines of wild soybean (Glycine soja). This variant showed an intermediate electrophoretic mobility between the Tia and Tic types. In isoelectric focusing polyacrylamide gel electrophoresis gels containing urea, this variant had a similar isoelectric point as that of Tia. The genetic analysis of SKTI bands in F2 seeds from crosses of the new variant type with Tia or Tic type showed that this variant type is controlled by a codominant allele at the SKTI locus. We propose the genetic symbol Tif for this novel variant. When the nucleotide sequence of the Tif gene was compared with those of other types of SKTI genes (Tia, Tib, and Tic), the sequence of Tif was identical to that of Tib with the exception of one A-->G transitional mutation occurring at position 676 of Tif. This mutation resulted in an amino acid change from Lys to Glu at the 178 residue. These results suggest that this variant is derived from Tib through a point mutation. In addition, we settled an inconsistency in the number of amino acid differences between Tia and Tib (eight or nine). Analysis of nucleotide and amino acid sequences revealed that Tib was different from Tia by nine amino acids.     

Cloning and characterization of a novel trypsin inhibitor (BTIomega1) gene from Fagopyrum esculentum.

Based on the amino acid information of trypsin inhibitor of buckwheat (Fagopyrum Esculentum Moench), degenerated primers were designed and a full-length cDNA sequence named BTIomega1 (Buckwheat Trypsin Inhibitor) was amplified from the leaves RNA by using RT-PCR and rapid amplification of cDNA ends (RACE) methods. Sequence analysis shows that the 392 bp cDNA contained an open reading frame (ORF) of 216 bp, encoding 72 amino acids residues. The deduced amino acid sequence exhibits 96 and 93% homology with BWI-1 and BTI-2, a natural trypsin inhibitor from buckwheat seeds. Southern blotting suggested that three copies of BTIomega1 gene existed in the buckwheat genome. Moreover, a predicted secondary structure and 3D-structural model was constructed by homology modeling. To our knowledge, this is the first all-round report of the gene BTIomega1. The novel BTIomega1 gene has been submitted to the GeneBank under Accession No. DQ289792.     

Kunitz trypsin inhibitor genes are differentially expressed during the soybean life cycle and in transformed tobacco plants.

We investigated the structure, organization, and developmental regulation of soybean Kunitz trypsin inhibitor genes. The Kunitz trypsin inhibitor gene family contains at least 10 members, many of which are closely linked in tandem pairs. Three Kunitz trypsin inhibitor genes, designated as KTi1, KTi2, and KTi3, do not contain intervening sequences, and are expressed during embryogenesis and in the mature plant. The KTi1 and KTi2 genes have nearly identical nucleotide sequences, are expressed at different levels during embryogenesis, are represented in leaf, root, and stem mRNAs, and probably do not encode proteins with trypsin inhibitor activity. By contrast, the KTi3 gene has diverged 20% from the KTi1 and KTi2 genes, and encodes the prominent Kunitz trypsin inhibitor found in soybean seeds. The KTi3 gene has the highest expression level during embryogenesis, and is also represented in leaf mRNA. All three Kunitz trypsin inhibitor genes are regulated correctly in transformed tobacco plants. Our results suggest that Kunitz trypsin inhibitor genes contain different combinations of cis-control elements that program distinct qualitative and quantitative expression patterns during the soybean life cycle.     

Tissue-specific and developmental regulation of a gene encoding a low molecular weight sulfur-rich protein in soybean seeds

A gene corresponding to a cDNA clone, SE60, encoding a low molecular weight sulfur-rich protein in soybean seeds was isolated from a soybean genomic library and characterized at the nucleotide level. The SE60 gene is interrupted by an intervening sequence of 694 by in size. The 5 flanking region of the gene contained various regulatory sequences such as the RY repeat and CACA elements found in other seed protein genes of legumes. The SE60 gene encoded a pre-protein of 75 amino acids, having a signal sequence of 28 amino acids at the N-terminus. The mature protein of 47 amino acids was basic and cysteine-rich. Northern blot analysis suggested that the SE60 gene is expressed in a tissue-specific and developmentally regulated manner during soybean seed development. The SE60 genes form a small multigene family composed of about four members in the soybean genome.     

Isolation and characterization of a wound-induced trypsin inhibitor from alfalfa leaves

A trypsin inhibitor from leaves of field-grown alfalfa plants has been purified and shown to be the same trypsin inhibitor that is wound induced in leaves of young growth chamber grown plants. This inhibitor accounts for the major trypsin inhibitory activity found in both field-grown and wound-induced plants. The inhibitor exhibits a molecular weight of about 7500 and is specific for trypsin with a Ki of 1 X 10(-10) M. Analysis of the purified inhibitor by cation-exchange high-performance liquid chromatography revealed the presence of four isoinhibitor species that have identical immunological and inhibitory properties. The amino acid analysis of the four species indicates small but significant differences. Immunological double diffusion comparisons of the alfalfa inhibitor with the Bowman-Birk and Kunitz soybean inhibitors did not reveal any cross-reactivity although the amino acid content of the alfalfa inhibitor resembles those of Bowman-Birk family members.     

Effect of proteolysis inhibitors on the incorporation of labelled amino acids into proteins]

Role of peptide bond breaks in the incorporation of amino acids into proteins in a "protein--amino acid" system is investigated. For this purpose the incorporation of labelled amino acids into trypsin under the inhibition of its autolysis by a specific inhibitor from soybean and epsilon-amino-caproic acid is studied. The trypsin inhibitor from soybean is found to suppress considerably the incorporation of 14C-glycine, 14C-lysine and 14C-methionine into crystal trypsin and not to affect the incorporation of labelled amino acids into chomotrypsin, papain and carboxypeptidase. Epsilon-Aminocaproic acid inhibited 14C-glycine incorporation into crystal trypsin by 40% and did not change its incorporation level into serum albumin. The dependency of amino acid incorporation level into trypsin on the activity of autolysis in the "protein--amino acid" system is demonstrated.     

Molecular Cloning and Sequence Analysis of a Gene Encoding Rice Proteinase Inhibitor

With the primers designed basing on the terminal amino acid sequences of rice proteinase inhibitors and the preferred codons of rice genes, a new gene coding for a rice proteinase inhibitor has been amplified and cloned from Oryza sativa var. japonica (cv. Zhonghua 8) using PCR technique. The gene contains 408 basepairs and encodes 133 amino acid residues. The deduced amino acid sequence with duplicated Bowman-Birk type structure and active sites specific to trypsin has relatively high homology with that of proteinase inhibitors from wheats, beans etc. As for rice, the new gene shares 74.8% homology with a rice bran trypsin inhibitor reported previously. The evolutionary characteristics of the proteinase inhibitor family has also been discussed.     

Sequencing and characterization of the citrus weevil, Diaprepes abbreviatus, trypsin cDNA. Effect of Aedes trypsin modulating oostatic factor on trypsin biosynthesis.

Trypsin mRNA from the citrus weevil, Diaprepes abbreviatus, was reverse transcribed and amplified by PCR. A cDNA species of 513 bp was cloned and sequenced. The 3' and 5' ends of the gene (262 bp and 237 bp, respectively) were amplified by rapid amplification of cDNA ends, cloned and sequenced. The deduced sequence of the trypsin cDNA (860 bp) encodes for 250 amino acids including 11 amino acids of activation and signal peptides and exhibited 16.8% identity to trypsin genes of selected Lepidoptera and Diptera. A three-dimensional model of Diaprepes trypsin contained two domains of beta-barrel sheets as has been found in Drosophila and Neobellieria. The catalytic active site is composed of the canonical triad of His41, Asp92 and Ser185 and a specificity pocket occupied by Asp179 with maximal activity at pH 10.4. Southern blot analysis indicated that at least two copies of the gene are encoded by Diaprepes midgut. Northern blot analysis detected a single RNA band below 1.35 kb at different larval ages (28-100 days old). The message increased with age and was most abundant at 100 days. Trypsin activity, on the other hand, reached a peak at 50 days and fell rapidly afterwards indicating that the trypsin message is probably regulated translationally. Feeding of soybean trypsin inhibitor and Aedes aegypti trypsin modulating oostatic factor affected trypsin activity and trypsin biosynthesis, respectively. These results indicate that Diaprepes regulates trypsin biosynthesis with a trypsin modulating oostatic factor-like signal.     

Structure of soybean Kunitz trypsin inhibitor mRNA determined from cDNA by using oligodeoxynucleotide primers

Oligodeoxynucleotides complementary to the deduced mRNA sequence of soybean Kunitz trypsin inhibitor (KTI) were used to prime the synthesis of cDNA from soybean cotyledon total poly(A) RNA. The primed cDNA was used to select clones from a Glycine max cotyledon cDNA library. Two out of twelve hybridizing clones were shown to contain KTI cDNA. The nucleotide sequence of one clone, pSTI 9-2, was determined and it was found to encompass the complete protein coding region of KTI excet for three C-terminal residues. Trypsin inhibitor is synthesized with a 25 amino acid hydrophobic N-terminal sequence presumed to be a signal peptide. The mature polypeptide encoded by pSTI 9-2 agrees with the published amino acid composition of KTI, but contains two discrepancies at the peptide sequence level.