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The continuously increase in resistance of human pathogenic microorganisms to the known antibiotics leads to the necessity for searching new sources for production of new active antimicrobial compounds from different natural sources especially plants, since many plants have been found to be able to produce antimicrobial compounds as a defense phenomenon against invading microorganisms. The aim of this work is to screen cultures for production of antimicrobial activity against representative of human pathogenic microorganisms and selection the most active cell culture producing antimicrobial protein(s) which are active against these pathogenic microorganisms and also isolation ,purification of the active protein(s) and cloning of its/their genes. Ten different plant suspension cultures have been screened in presence of nine elicitors for their antimicrobial activity against five selected human pathogenic microorganisms, and it has been found that the heterotrophic cultures are more active against the tester isolates than the autotrophic ones. The intracellular fraction of the mixotrophic Arabidopsis thaliana culture elicited with salicylic acid showed the highest antimicrobial activity against the tester isolates. The presence of proteinous antimicrobial activity has been elucidated by testing the activity of ammonium sulphate precipitate against Candida maltosa. High speed centrifugation technique has been used for partial purification of the active protein. The proteinous nature of the isolated compound has been confirmed by using bioautography technique and its molecular weight could be estimated to be around 26KDa. The active protein has been purified using gel filtration, and using mass spectrometry technique, for microsequencing of the active protein, it has been found that the function of the protein is unknown and we have termed it as AtPDP1 according to Arabidopsis thaliana Plat-Domain Protein1, since it contains a plant stress domain termed PLAT domain. It has been found that a second protein from the same plant with high homology level to AtPDP1 with the same domain, we termed it as AtPDP2. Genes for AtPDP1 and AtPDP2 have been cloned in E. coli using PGEM-T easy vector. The expression of both genes have been tested using Digital Northern program, and it has been observed that both genes are induced by different pathogens, chemicals known to induce defense in plant cells and also different hormones. We tried to clone the gene for AtPDP1 in PBI121 binary vector under the control of an elicitor inducible promoter of a proteinase inhibitor gene, to test its function in plant by overexpression, but we did not succeeded. Also the work aims to cloning the different known thaumatin genes from Arabidopsis thaliana for future work which represented by testing their expression under different stimuli, since most thaumatins have antimicrobial activity and some of them are active against Candida spp..Thirteen genes of known thaumatins from Arabidopsis thaliana have been cloned in PGEM-Teasy vector in DH5-alpha cells. coli cells. The expression of the thirteen genes has been done using Digital Northern program and it has been found that different genes show different expressions under different stimuli and the expression of At1g75800 gene was the maximum under all stimuli. The minimum expression of genes was for At1g75050. The rest of thaumatin genes showed moderate expressions under different stimuli.