Assem Abolmaaty scite author profile

Background: Actinobacteria is as a group of advanced filamentous bacteria. Rare Actinobacteria are of special interest as they are rarely isolated from the environments. They are a major source of important bioactive compounds. Determining the proper strategy for the identification of Actinobacteria harboring biosynthetic gene clusters and producing bioactive molecules is a challenging platform. Methodology: In this review, we discuss a consequence of microbiological and molecular methods for the identification of rare Actinobacteria. In addition to that, we shed light on rare Actinobacteria's significance in antibiotic production. We also clarified molecular approaches for the manipulation of novel biosynthetic gene clusters via PCR screening, fosmid libraries, and Illumina whole-genome sequencing in combination with bioinformatics analysis. Conclusion: Perceptions of the conventional and molecular identification of Actinobacteria were conducted. This will open the door for the genetic manipulation of novel antibiotic gene clusters in heterologous hosts. Also, these conclusions will lead to constructing new bioactive molecules via genetically engineering biosynthetic pathways.

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The use of activated charcoal for the removal of PCR inhibitors from oyster samples

Abolmaaty

Witkowsky

et al. 2007

Journal of Microbiological Methods

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Phylogenic Characteristics of a Unique Antagonistic Micromonospora Sp. Rc5 to S. aureus Isolated from Sinai Desert of Egypt

Amin

Abolmaaty

Tolba

et al. 2018

ARRB

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A distinct strain named Micromonospora sp. Rc5 was isolated from Sinai desert of Egypt and recorded high antagonistic activities against some food and bloodborne pathogens. Morphological and chemotaxonomy characterization confirmed that this isolate belongs to genus Micromonospora. Sequencing of partial 16S rDNA and BLASTN showed that isolate Rc5 is identical to Micromonospora haikouensis (99%) but with low bootstrap value in NJ phylogenetic tree. Comprehensive optimization of several growth factors was performed including initial pH, incubation periods, and different sources of carbon and nitrogen. The highest yield of antimicrobial agent production was obtained after 8 days of incubation at 30°C, pH 6.0, 3 x 10 5 CFU/ml in soya bean meal broth media with agitation of 150 rpm. A dramatic proportional decrease occurred with Original Research Article

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Phylogenetic and Antimicrobial Characteristics of a Novel Streptomyces sp. Ru87 Isolated from Egyptian Soil

Amin¹,

Tolba²,

Abolmaaty³

et al. 2017

Int.J.Curr.Microbiol.App.Sci

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Assem Abolmaaty

Effect of lysing methods and their variables on the yield of Escherichia coli O157: H7 DNA and its PCR amplification

Microbiological and molecular insights on rare Actinobacteria harboring bioactive prospective

The use of activated charcoal for the removal of PCR inhibitors from oyster samples

Phylogenic Characteristics of a Unique Antagonistic Micromonospora Sp. Rc5 to S. aureus Isolated from Sinai Desert of Egypt

Phylogenetic and Antimicrobial Characteristics of a Novel Streptomyces sp. Ru87 Isolated from Egyptian Soil

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