1. Hemorrhagic toxin from the venom of Agkistrodon bilineatus (common cantil)
K Imai, T Nikai, H Sugihara, C L Ownby Int J Biochem. 1989;21(6):667-73. doi: 10.1016/0020-711x(89)90388-1.
1. Hemorrhagic toxin was isolated from Agkistrodon bilineatus (Common cantil) venom using a three-step purification procedure to obtain 32.8 mg of purified hemorrhagic toxin from 700 mg of crude venom. 2. The purified toxin was homogeneous by disc polyacrylamide gel electrophoresis at pH 8.3, and by isoelectric focusing. 3. Hemorrhagic toxin possessed lethal, hemorrhagic and proteolytic activities. These activities of this toxin were inhibited by ethylenediaminetetraacetic acid (EDTA) and ethyleneglycol-bis-(beta-aminoethylether)N,N'-tetraacetic acid (EGTA), but not by cysteine or soybean trypsin inhibitor (SBTI). 4. Its molecular weight was approximately 48 kDa and the isoelectric point was 4.2. 5. Purified preparation hydrolyzed the Asn(3)--Gln(4), His(10)--Leu(11), Ala(14)--Leu(15), Tyr(16)--Leu(17), Arg(22)--Gly(23) and Phe(24)--Phe(25) bonds of oxidized insulin B. chain. 6. The A alpha chain of fibrinogen was first split and B beta chain was cleaved later by this toxin. 7. Hemorrhagic toxin contains 1 mol of zinc and 2 mol of calcium per mol of protein.
2. SBTX, a new toxic protein distinct from soyatoxin and other toxic soybean [Glycine max] proteins, and its inhibitory effect on Cercospora sojina growth
I M Vasconcelos, J K S Morais, E A Siebra, C R Carlini, D O B Sousa, L M Beltramini, V M M Melo, J T A Oliveira Toxicon. 2008 May;51(6):952-63. doi: 10.1016/j.toxicon.2007.10.005. Epub 2007 Oct 13.
SBTX, a novel toxin from soybean, was purified by ammonium sulfate fractionation followed by chromatographic steps DEAE-Cellulose, CM-Sepharose and Superdex 200 HR fast-protein liquid chromatography (FPLC). Lethality of SBTX to mice (LD(50) 5.6 mg/kg) was used as parameter in the purification steps. SBTX is a 44-kDa basic glycoprotein composed of two polypeptide chains (27 and 17 kDa) linked by a disulfide bond. The N-terminal sequences of the 44 and 27kDa chains were identical (ADPTFGFTPLGLSEKANLQIMKAYD), differing from that of 17 kDa (PNPKVFFDMTIGGQSAGRIVMEEYA). SBTX contains high levels of Glx, Ala, Asx, Gly and Lys and showed maximum absorption at 280 nm, epsilon(1cm)(1%) of 6.3, and fluorescence emission in the 290-450 nm range upon excitation at 280nm. The secondary structure content was 35% alpha-helix, 13% beta-strand and beta-sheet, 27% beta-turn, 25% unordered, and 1% aromatic residues. Immunological assays showed that SBTX was related to other toxic proteins, such as soyatoxin and canatoxin, and cross-reacted weekly with soybean trypsin inhibitor and agglutinin, but it was devoid of protease-inhibitory and hemagglutinating activities. The inhibitory effect of SBTX on growth of Cercospora sojina, fungus causing frogeye leaf spot in soybeans, was observed at 50 microg/ml, concentration 112 times lesser than that found to be lethal to mice. This effect on phytopathogenic fungus is a potential attribute for the development of transgenic plants with enhanced resistance to pathogens.
3. Gene expression during development and overexpression after Cercospora kikuchii and salicylic acid challenging indicate defensive roles of the soybean toxin
Mariana R Arantes, et al. Plant Cell Rep. 2020 May;39(5):669-682. doi: 10.1007/s00299-020-02523-1. Epub 2020 Mar 2.
SBTX has defensive role against C. kikuchii, and therefore, its constituent genes SBTX17 and SBTX27 are promising candidates to engineer pathogen resistant plants. Soybean (Glycine max [L.] Merr.) is economically the most important legume crop in the world. Its productivity is strongly affected by fungal diseases, which reduce soybean production and seed quality and cause losses of billions of dollars worldwide. SBTX is a protein that apparently takes part in the defensive chemical arsenal of soybean against pathogens. This current study provides data that reinforce this hypothesis. Indeed, SBTX inhibited in vitro the mycelial growth of Cercospora kikuchii, it is constitutively located in the epidermal region of the soybean seed cotyledons, and it is exuded from mature imbibed seeds. Moreover, RT-qPCR analysis of the SBTX associated genes, SBTX17 and SBTX27, which encode for the 17 and 27 kDa polypeptide chains, showed that both genes are expressed in all studied plant tissues during the soybean development, with the highest levels found in the mature seeds and unifoliate leaves. In addition, to assess a local response of the soybean secondary leaves from 35-day-old plants, they were inoculated with C. kikuchii and treated with salicylic acid. It was verified using RT-qPCR that SBTX17 and SBTX27 genes overexpressed in leaves compared to controls. These findings strongly suggest that SBTX has defensive roles against C. kikuchii. Therefore, SBTX17 and SBTX27 genes are promising candidates to engineer pathogen resistant plants.