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Kalata B17

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Kalata B17 is an antibacterial peptide isolated from Oldenlandia affinis.

Category
Functional Peptides
Catalog number
BAT-012522
Synonyms
Gly-Ile-Pro-Cys-Ala-Glu-Ser-Cys-Val-Tyr-Ile-Pro-Cys-Thr-Ile-Thr-Ala-Leu-Leu-Gly-Cys-Lys-Cys-Lys-Asp-Gln-Val-Cys-Tyr-Asn
Sequence
(cyclo)-GIPC(1)AESC(2)VYIPC(3)TITALLGC(1)KC(2)KDQVC(3)YN-(cyclo)
1. Cyclotides are a component of the innate defense of Oldenlandia affinis
Joshua S Mylne, Conan K Wang, Nicole L van der Weerden, David J Craik Biopolymers. 2010;94(5):635-46. doi: 10.1002/bip.21419.
Cyclotides are small cysteine-rich plant peptides similar in size and processing to the defensins. Long-term growth of the Rubiaceae family plant Oldenlandia affinis under different conditions reveals a diverse cyclotide gene and peptide expression profile, including tissue specificity, suggesting that different cyclotides are regulated differently both spatially and in response to the environment. To determine whether cyclotide precursor gene regulation was dynamic we exposed O. affinis to a range of abiotic, biotic, and hormonal stimuli and monitored Oak1-4 expression over a 48-h period. Unlike some defensins, the genes for cyclotide precursor proteins Oak1-4 did not display dynamic change, indicating that they contribute to the basal defense of O. affinis. Despite this lack of dynamism, the cyclotide profile of plants grown on plates differed markedly from field-grown plants and so prompted attempts to discover novel cyclotides and precursor genes. The two most abundant cyclotides from plate-grown O. affinis were sequenced and one was found to be an unusual linear cyclotide derivative, kalata B20-lin. Degenerate PCR of plate-grown O. affinis obtained five novel cyclotide genes including Oak9 which encodes for kalata B20-lin and appears to have arisen by the presence of a premature stop codon.
2. Formation of cyclotides and variations in cyclotide expression in Oldenlandia affinis suspension cultures
Peter Seydel, Christian W Gruber, David J Craik, Heike Dörnenburg Appl Microbiol Biotechnol. 2007 Nov;77(2):275-84. doi: 10.1007/s00253-007-1159-6. Epub 2007 Sep 5.
Cyclotides, a family of disulfide-rich mini-proteins, show a wide range of biological activities, making them interesting targets for pharmaceutical and agrochemical applications, but little is known about their natural function and the events that trigger their expression. An investigation of nutritional variations and irradiation during a batch process involving plant cell cultures has been performed, using the native African medical herb, Oldenlandia affinis, as a model plant. The results demonstrated the biosynthesis of kalata B1, the main cyclotide in O. affinis, in a combined growth/nongrowth-associated pattern. The highest concentration, 0.37 mg g(-1) dry weight, was accumulated in irradiated cells at 35 mumol m(-2) s(-1). Furthermore, 12 novel cyclotides were identified and the expression of various cyclotides compared in irradiated vs non-irradiated cultures. The results indicate that cyclotide expression varies greatly depending on physiological conditions and environmental stress. Kalata B1 is the most abundant cyclotide in plant suspension cultures, which underlies its importance as a natural defense molecule. The identification of novel cyclotides in suspension cultures, compared to whole plants, indicates that there may be more novel cyclotides to be discovered and that the genetic network regulating cyclotide expression is a very sensitive system, ready to adapt to the current environmental growth condition.
3. Structural and biochemical characteristics of the cyclotide kalata B5 from Oldenlandia affinis
Manuel R Plan, K Johan Rosengren, Lillian Sando, Norelle L Daly, David J Craik Biopolymers. 2010;94(5):647-58. doi: 10.1002/bip.21409.
Cyclotides are a large family of plant-derived proteins typified by their head-to-tail cyclic backbone and knotted arrangement of three disulfide bonds. Although they display a diverse range of biological activities, their native function is thought to be plant defense. Here we characterized the expression, three-dimensional structure, and hemolytic activity of the cyclotide kalata B5 from the African plant Oldenlandia affinis. Kalata B5 shows an interesting seasonal variation in its expression and can only be isolated during certain times of the year, when the plant is flowering. It displays a typical tightly folded cyclic Scystine knot structure. A range of pH and temperature titrations reveal that a conserved glutamic acid in loop 1 Sof the structure forms a key hydrogen bond network, similar to that reported previously for other cyclotides. However, specific line broadening in the NMR spectra of kalata B5 suggests that the hydrogen bonding network in this peptide is less rigid than in other cyclotides. Notably, the pK9a) of Glu6 of 4.5 is higher than the values for other cyclotides studied so far, which range from 3.0 to 4.0, providing a further indication of a weaker hydrogen bond network. Kalata B5 has only moderate hemolytic activity compared with other highly expressed cyclotides, and this reduced activity probably reflects its more flexible structure. As is the case with other cyclotides, kalata B5 has an exposed hydrophobic region on its surface, supporting suggestions that this hydrophobic patch is a key feature for membrane binding and biological activity of cyclotides.
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