Rize has a different and special flora because of its geographical position, climate, and topography. The natural plants of Rize have a very big usage potential and value in some sort of intrustrial branches. In parti...Rize has a different and special flora because of its geographical position, climate, and topography. The natural plants of Rize have a very big usage potential and value in some sort of intrustrial branches. In particular, the antimicrobial activity of natural plant oils and extracts has formed the basis of many applications, including raw and processed food preservation, pharmaceuticals, alternative medicine and natural therapies: These natural plants can be listed as follows: Artemisia absinthium L., Achi[[ea millefolium L., Astragalus schizopterus Boiss, Ajuga orientalis L., Humulus lupulus L,, Mentha longifolia L., Melissa officinalis L., Thymus pseudopulegioides Klokov et Des., Plantago major L., Rhus L., Hypericum perforatum L., Camellia chinensis L., Taraxacum officinale Wobb., duniperus communis L., etc.. In the present study, the bio-eco-morphological features of some antimicrobial activity plants, their active substance content, their effectuality and usage as traditional medicine in Rize region were discussed. It was observed that these herbs are preferred by experts and they are sold in the neighborhood markets and spice stores, and the local people are quite interested in these medicinal herbs.展开更多
Bacillus subtilis produces many chemlcally-dwerse seconaary metaDolltes or interest to chemists ano biologlsts. Based on this, this review gives a detailed overview of the natural components produced by B. subtilis in...Bacillus subtilis produces many chemlcally-dwerse seconaary metaDolltes or interest to chemists ano biologlsts. Based on this, this review gives a detailed overview of the natural components produced by B. subtilis including cyclic lipopeptides, polypeptides, proteins (enzymes), and non-peptide products. Their structures, bioactive ac- tivities and the relevant variants as novel lead structures for drug discovery are also described. The challenging effects of fermentation metabolites, isolation and purification, as well as the overproduction of bioactive com- pounds from B. subtilis by metabolic engineering, '~ere also highlighted. Systematically exploring biosynthetic routes and the functions of secondary metabolites from 13. subtilis may not only be beneficial in improving yields of the products, but also in helping them to be used in food industry and public medical service on a large-scale.展开更多
Marine sponge Tedania anhelans distributes throughout the intertidal zone of Fujian, southeastern China, and is a potential source of natural bioactive products. The sponge harbors a large number of bacterial groups t...Marine sponge Tedania anhelans distributes throughout the intertidal zone of Fujian, southeastern China, and is a potential source of natural bioactive products. The sponge harbors a large number of bacterial groups that have been identified using various techniques, including fluorescent in situ hybridization (FISH). Fractionation of dissociated sponge allowed isolation of 25 bacterial species. Based on 16S rRNA gene sequencing, phylogenetic analysis attributed most of these eubacteria to cL-Proteobacteria, y-Proteobacteria, Cytophaga/Flavobacterium/Bacteroidetes (CFB group), and the family Bacillaceae of Gram-positive bacteria. In sequence similarity, five putatively novel species were identified with less than 98% similarity to other strains in the NCBI database. Tests for antimicrobial activities were performed against Gram-positive bacteria, Gram-negative bacteria, fungi, antitumor indicators Escherichia coli 343/591 (with DNA repair deficiency), regular E. coli 343/636 (with different DNA repair capacity), and 10 bacterial isolates exhibited inhibitory bioactivities. Among these strains, three isolates were detected involving function gene NRPS-A domains, which were most closely related to the amino acid sequences of linear gramicidin synthetase and pyoverdine synthetase. These results contribute to our knowledge of the microbes associated with marine sponges and further reveal novel bacterial resources for the screening of bioactive marine natural products.展开更多
文摘Rize has a different and special flora because of its geographical position, climate, and topography. The natural plants of Rize have a very big usage potential and value in some sort of intrustrial branches. In particular, the antimicrobial activity of natural plant oils and extracts has formed the basis of many applications, including raw and processed food preservation, pharmaceuticals, alternative medicine and natural therapies: These natural plants can be listed as follows: Artemisia absinthium L., Achi[[ea millefolium L., Astragalus schizopterus Boiss, Ajuga orientalis L., Humulus lupulus L,, Mentha longifolia L., Melissa officinalis L., Thymus pseudopulegioides Klokov et Des., Plantago major L., Rhus L., Hypericum perforatum L., Camellia chinensis L., Taraxacum officinale Wobb., duniperus communis L., etc.. In the present study, the bio-eco-morphological features of some antimicrobial activity plants, their active substance content, their effectuality and usage as traditional medicine in Rize region were discussed. It was observed that these herbs are preferred by experts and they are sold in the neighborhood markets and spice stores, and the local people are quite interested in these medicinal herbs.
基金Supported by the National Natural Science Foundation of China(21376215)the National Science and Technology Major Project of New Drug,China(2012ZX09103101-075)+2 种基金the Innovative Research Platform co-constructed by Zhejiang University and Taizhou City,and the Science and Technology Project of Zhejiang Province(2014C33174)the Major State Basic Research Development Program of China(2011CB710803)the National High-Tech Research and Development Program of China(2012AA022302)
文摘Bacillus subtilis produces many chemlcally-dwerse seconaary metaDolltes or interest to chemists ano biologlsts. Based on this, this review gives a detailed overview of the natural components produced by B. subtilis including cyclic lipopeptides, polypeptides, proteins (enzymes), and non-peptide products. Their structures, bioactive ac- tivities and the relevant variants as novel lead structures for drug discovery are also described. The challenging effects of fermentation metabolites, isolation and purification, as well as the overproduction of bioactive com- pounds from B. subtilis by metabolic engineering, '~ere also highlighted. Systematically exploring biosynthetic routes and the functions of secondary metabolites from 13. subtilis may not only be beneficial in improving yields of the products, but also in helping them to be used in food industry and public medical service on a large-scale.
基金Supported by the Natural Science Foundation of Fujian Province,China(No.2011J01245)the Fundamental Research Funds for the Central Universities(No.2010121034)
文摘Marine sponge Tedania anhelans distributes throughout the intertidal zone of Fujian, southeastern China, and is a potential source of natural bioactive products. The sponge harbors a large number of bacterial groups that have been identified using various techniques, including fluorescent in situ hybridization (FISH). Fractionation of dissociated sponge allowed isolation of 25 bacterial species. Based on 16S rRNA gene sequencing, phylogenetic analysis attributed most of these eubacteria to cL-Proteobacteria, y-Proteobacteria, Cytophaga/Flavobacterium/Bacteroidetes (CFB group), and the family Bacillaceae of Gram-positive bacteria. In sequence similarity, five putatively novel species were identified with less than 98% similarity to other strains in the NCBI database. Tests for antimicrobial activities were performed against Gram-positive bacteria, Gram-negative bacteria, fungi, antitumor indicators Escherichia coli 343/591 (with DNA repair deficiency), regular E. coli 343/636 (with different DNA repair capacity), and 10 bacterial isolates exhibited inhibitory bioactivities. Among these strains, three isolates were detected involving function gene NRPS-A domains, which were most closely related to the amino acid sequences of linear gramicidin synthetase and pyoverdine synthetase. These results contribute to our knowledge of the microbes associated with marine sponges and further reveal novel bacterial resources for the screening of bioactive marine natural products.
