Several shorter analogues of the cell penetrating peptide transportan have been synthesized in order to define the regions of the sequence, which are responsible for the membrane translocation property of the peptide. Penetration of the peptide into Bowes melanoma cells and the influence on GTPase activity in Rin m5F cellular membranes have been tested. The experimental data on cell penetration have been compared with molecular modeling of insertion of peptides into biological membranes. Omission of six amino acids from the Nterminus did not significantly impair the cell penetration of the peptide while deletions at the C-terminus or in the middle of the transportan sequence decreased or abolished the cellular uptake. Most transportan analogues exert an inhibitory effect on GTPase activity. Molecular modeling shows that insertion of the transportan analogues into the membrane differs for different peptides. Probably length of the peptide as well as the location of aromatic and positively charged residues have major impact on the orientation of peptides in the membranes and thereby influence the cellular penetration. In summary, we have designed and characterized several novel short transportan analogues with similar cellular translocation properties to the parent peptide, but with reduced undesired cellular activity. U. S o o m e t~l *~, M. Lindgrenl, X. Gallet2, M. Hallbrinkl, A.This project relates to the field of plant molecular biology in general. The transformation of plant cells with D N A encoding an antibiotic resistance markers is clearly desirable to obtain a high level of expression of the introduced gene to enable efficient selection of the transformants. Tissue culture facilities were used to determine the lethal concentration of gentamycin and ampicillin on the tea plant (Camellia sinensis) and studied the effect of two types of media MS and B5 in the presence of auxins with or without cytokinin. It was found that gentamycin is more toxic to the tea explant in the presence of IAA without BA than in the presence of IAA and BA. There were no obvious differences between the toxicities of the MS media supplemented with 2,4-D with or without BA. The toxicity of gentamycin was detected at 200 &ml media and the lethal dose of all the samples were 400 pg/ml media in the two types of media chosen (MS & B5) with the different hormone types. B5 media which contains IAA and BA have shown some resistance to gentamycin at a concentration of 400 p g Iml media.two types of plasmids; one with Kanamycin and the other with ampicillin resistance. Tea cells were grown in either ampicillin or kanamycin depending on the marker they carry. Our preliminary results shows that the transformed tea cells have changed their metabolic pathway in relation to the synthesis of caffeine, theobromine and theophylline. Antibiotic ResistanceTransformation of tea protoplasts was carried out using 659 Cytokinin-induced epigenetic inheritance of an "extra stamens" phenotype in Brassica rapa flowers Flower development in angiosperms is affe...
Several shorter analogues of the cell penetrating peptide, transportan, have been synthesized in order to define the regions of the sequence, which are responsible for the membrane translocation property of the peptide. Penetration of the peptides into Bowes melanoma cells and the influence on GTPase activity in Rin m5F cellular membranes have been tested. The experimental data on cell penetration have been compared with molecular modeling of insertion of peptides into biological membranes. Omission of six amino acids from the N-terminus did not significantly impair the cell penetration of the peptide while deletions at the C-terminus or in the middle of the transportan sequence decreased or abolished the cellular uptake. Most transportan analogues exert an inhibitory effect on GTPase activity. Molecular modeling shows that insertion of the transportan analogues into the membrane differs for different peptides. Probably the length of the peptide as well as the location of aromatic and positively charged residues have major impact on the orientation of peptides in the membranes and thereby influence the cellular penetration. In summary, we have designed and characterized several novel short transportan analogues with similar cellular translocation properties to the parent peptide, but with reduced undesired cellular activity.
It is generally postulated that amyloid-beta-peptides play a central role in the progressive neurodegeneration observed in Alzheimer's disease. Important pathological properties of these peptides, such as neurotoxicity and resistance to proteolytic degradation, depend on the ability of amyloid-beta-peptides to form beta-sheet structures and/or amyloid fibrils. Amyloid-beta-peptides are known to aggregate spontaneously in vitro with the formation of amyloid fibrils. The intervention on the amyloid-beta-peptides aggregation process can be envisaged as an approach to stopping or slowing the progression of Alzheimer's disease. In the last few years a number of small molecules have been reported to interfere with the in vitro aggregation of amyloid-beta-peptides. Melatonin, a hormone recently found to protect neurons against amyloid-beta-peptide toxicity, interacts with amyloid-beta-peptide (1-40) and amyloid-beta-peptide (1-42) and inhibits the progressive formation of beta-sheet and/or amyloid fibrils. These interactions between melatonin and the amyloid peptides have been demonstrated by circular dichroism (CD) and electron microscopy for amyloid-beta-peptide (1-40) and amyloid-beta-peptide (1-42) and by nuclear magnetic resonance (NMR) spectroscopy for amyloid-beta-peptide (1-40). Our electrospray ionization mass spectrometric (ESI-MS) studies also proved that there is a hydrophobic interaction between amyloid-beta-peptide (1-40) and melatonin and the proteolytic investigations suggested that the interaction took place on the 29-40 amyloid-beta-peptide segment. The wide-ranging application of these results would provide further information and help in biological research.
Deamino[4-threonine,8-D-arginine]vasopressin (dTDAVP), deamino[8-D-arginine]vasopressin (dDAVP), [8-D-arginine[vasopressin (DAVP), and deamino-arginine-vasopressin (dAVP) were synthesized by the solid-phase method and tested for their biological activities. dTDAVP has an antidiuretic potency of 793+/-95 units/mg and undetectable vasporessor activity, less than 0.02unit/mg. The antidiuretic-pressor (A/P) ratio of dTDAVP is greater than 39 000. dDAVP has an antidiuretic potency of 1200+/-126 units/mg and a vasopressor potency of 0.39+/-0.02; its A/P ratio is thus 3000. DAVP has an antidiuretic potency of 253+/-44 units/mg, a vasopressor potency of 1.1+/-0.04 units/mg, and an A/P ratio of 240. The A/P ratios of dDAVP and DAVP are much higher than those originally reported. dAVP has an antidiuretic potency of 1745+/-385 units/mg, a vasopressor potency of 346+/-13, and an A/P ratio of 5; values are in general agreement with those in the literature. Threonine subsitution has thus brought about a significant enhancement in antidiuretic specificity, a finding entirely consistent with earlier observations that enhancement of lipophilicity at position 4 alone or in combination in arginine-vasopressin can lead to enhanced antidiuretic specificity.
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