In order to obtain much more un-known actinomycetes for discovering new drug lead, one hundred soil samples were collected from five national natural protection areas of tropical rain forests, Mengla, Menglun, Mandian, Xiaomengyang and Guanping, in Xishuangbanna, Yunnan, China. 1652 purified cultures of actinobacteria were isolated from these samples by using 5 media. The 16S rRNA gene sequences of 388 selected strains were analyzed, and the phylogenetic analysis was carried out. 35 genera which belong to 8 orders and 14 families of the Class actinobacteria were identified. It is showed from research results that actinomycete diversity in tropical rain forest of Xishuangbanna is the highest comparing with all areas studied in our laboratories before. Selective isolation methods for un-known actinomycetes from soil samples, including medium and inhibitors are discussed in this paper.
Actinomycetes (Actinobacteria) have been paid a great attention owing to their production of various natural drugs and other bioactive metabolites including antibiotics, enzyme inhibitors and enzymes. Over 22,000 bioactive secondary metabolites (including antibiotics) were published on the scientific and patent literature, and about a half of them were produced by actinomycetes. About 150 antibiotics have being applied in human therapy and agriculture now, 100 - 120 of them were produced by actinomycetes [
Mekong River (Ménam Khong, or Khong, or Mae Nam) is an international river. It originates from Yushu, Qinghai Province, China. It flows over Laos, Burma, Thailand, Cambodia and Vietnam, and flows into South China Sea. Total length of it is 4880 km, and it is the sixth river in length in the world.
The tropical rain forests are distributed widely on the river line of Mekong River, and one area of highest biodiversity in the world. Xishuangbanna is located at middle reaches of Mekong River. One hundred soil samples were collected from five national natural protection areas of tropical rain forests in Xishuangbanna. Diversity of cultivable actinomycetes was studied. Some results are reported in this paper.
Xishuangbanna is included in the Indo-Burma biodiversity hotspots and contains over 5000 species of vascular plants, comprising 16 percent of China’s total plant diversity [7-9]. The forests of Xishuangbanna biodiversity that is important both globally and nationally. Typical vegetation is mainly consisted of Family Sapindaceae, Annonaceae, Meliaceae, Euphobiaceaea, Moraceae, Lauracear, Datiscaceae, Rubiaceae, Binnoniaceae, and Orichdaceae etc. Despite Xishuangbanna’s high biodiversity, general ecological information about the tropical rain forests of the region has rarely been published for an international audience. The fauna of Xishuangbanna are no less diverse, as 36.2%, 21.7%, and 14.6% of China’s birds, mammals, and reptiles and amphibians occur in this region, respectively [10-13]. Five sampling areas, Mengla, Menglun, Mandian, Xiaomengyang and Guanping are located within a radius of N 21˚ and E 101˚, covering about 100 km2, altitude 450 to 900 m. Mean annual temperature is 21˚C, and accumulated temperature over 18˚C is more than 200 days. Annual precipitation is about 1500 mm. Annual sunshine is about 2000 hours. Soil belongs to brick-red soil, and pH 5.3 template, created in MS Word 2003 and saved as “Word 97-2003 & 6.0/95-RTF” for the PC, provides authors with most of the formatting specifications needed for preparing electronic versions of their papers. All standard paper components have been specified for three reasons: 1) ease of use when formatting individual papers, 2) automatic compliance to electronic requirements that facilitate the concurrent or later production of electronic products, and 3) conformity of style throughout a journal paper. Margins, column widths, line spacing, and type styles are built-in; examples of the type styles are provided throughout this document and are identified in italic type, within parentheses, following the example. Some components, such as multi-leveled equations, graphics, and tables are not prescribed, although the various table text styles are provided. The formatter will need to create these components, incorporating the applicable criteria that follow.
One hundred soil samples were collected from five national natural protection areas of tropical rain forests, Menngla, menglun, Mandian, Xiaomengyang and Guanping, in Xishuangbanna, Yunnan, China. 20 samples were collected in each area. The five protection areas cover about total 100 km2 range. Each sample was mixed by soil collected from 5 to 10 sampling holes and 5 to 20 cm depth. The samples were put in sterile glass dish immediately, and dried for 10 days at 28˚C. 2 g of each dried sample were pre-treated at 80˚C or 120˚C for 1 hour, and respectively put in 18 ml sterile water with 0.1% Na4P2O5, and shaken for 60 min at 220 rpm/min. The suspension was diluted from 10−1 to 10−5.
Following media were used for isolating actinobacteria in soil samples:
YIM171 = Improvement Glycerol-Asparagine medium: 10 g Glycerol, 1 g asparagine, 1 g K2HPO4·H2O, 0.5 g MgSO4·7H2O, 0.3 g CaCO3, 3.7 mg Vit mixture of HV medium, 15 g agar, 1000 ml water, pH 7.2.
YIM212 = Mycose-Proline medium: 5 g Mycose, 1 g proline, 1 g (NH4)2SO4, 1 g NaCl, 2 g CaCl2, 1 g K2HPO4·H2O, 1 g MgSO4·7H2O, 3.7 mg Vit mixture of HV medium, 15 g agar, 1000 ml water, pH 7.2.
YIM213 = Raffinose-Histidine medium: 5 g Raffinose, 1 g histidine, 1 g K2HPO4·H2O, 0.5 g MgSO4·7H2O, 15g agar, 1000 ml water, pH 7.2 - 7.4.
Improvement HVG: 1 g Humic acid, 0.5 g Keratin, 0.3 g CaCl2, 10 mM MOPS, 0.1ml Trace salts, 7 g Gellan Gum, 1000 ml water, pH 7.2 - 7.4.
All of media were supplemented with filter sterilized mixture solution consisted of 50 or 100 mg cycloheximide, 50 or 100 mg nystatin and 20 or 40 mg nalidixic acid, or K2Cr2O7 50 or 75 mg for 1000 ml medium, as inhibitors against fungi and Gram negative bacteria.
Plate dilution method was used for selective isolating actinobacteria from the sample suspension. 0.2 ml of suspensions of each sample were spread on the medium plates, and cultivated for 7 to 35 days at 28˚C, then take count of colonies, and pick up actinobacteria to slant of the same isolation medium.
Total 1652 pure strains were isolated from the 100 soil samples, 388 strains of them were selected after throwing out many duplicates strains based on morphological and cultural characteristics. The DNA of pure strains was extracted for 16S rDNA analysis [
100 soil samples from Xishuangbanna were isolated by using five media. It is showed from
S = Streptomyces; R = rare actinomycetes; YIM 171 = Improvement Glycerol-Asparagine medium; YIM YIM 212 = Mycose-Proline medium; YIM 213 = Raffinose-Histidine medium; 7 = HV medium; HVG = Improvement HVG.
isolated, 124 (56%) of them were rare actinomycetes with YIM 7 (HV); 205 strains were isolated, and 112 (55%) were rare actinomycetes with YIM 213. 459 pure strains were isolated, and 270 strains (55%) of them were Streptomycetes with YIM 171; 371 pure strains were isolated, and 205 strains (56%) of them were Streptomycetes with HVG. Therefore we propose that the former three media can use to selection isolation of rare actionmycetes, and the last two media use to isolate streptomycetes from forest soil samples.
Kind and concentration of inhibitors for isolating actinobacteria from forest soil were tested many times in our laboratories, the optimum composition was 50 mg/L K2Cr2O7, or 100 mg/L mixture solution of nystatin, 50 mg/L cycloheximide and 20 mg/L nalidixic acid, most part of Gram negative bacteria were inhibited, and no fungi grown on all five medium plates.
16S rDNA sequences of 388 selected pure strains were determined. The phylogenetic analysis was carried out. Strains were identified at a genus level. Total 35 genera of actinobacteria were isolated and identified. These genera belong to 8 orders and 14 families (
Based on general regularization in taxonomic world, the similarity of 16S rRNA gene sequence of a strain with the closest valid species is below 98.5%, the strain should be possible novel species [
Two new genera, Planosporangium [
In our previous studies of pure cultivable actinobacteria, 17 genera were isolated in 60 soil samples collected from primeval forest in Grand Shangri-La, southwest China [
Recent 20 years, un-cultivable microorganisms in various habitats, soil, ocean, extreme environments, animal and plant were analyzed with DGGE, TGGE and 454 sequencing in many laboratories [25-31]. But in our view, in order to develop new drug and other industry products, only knowing the existence of un-cultivable microbes is not enough completely, we should make the un-cultivable to pure cultured actinomycetes by using every means. This is an important presupposition and new hope for development and utilization of actinomycete resources.
Selective isolation methods for actinobacteria, especially
un-known actinomycetes, are very important, and itself as a research project should be studied, improved and replaced constantly. A large number of Gram negative bacteria, fungi and even known actinomycetes in soil samples is a main problem for selective isolation of un-known actinobacteria. In order to eliminate the appearance of the former, and obtain much more un-known actinobacteria for discovering novel drug leader and other products, sampling and isolation methods should be put as the key point.
Based on many test results for a long term in our laboratory, first, it is best to collect test samples from primeval habitats which have never been disturbed by action of human, such as primeval forests and extreme environments; second, soil samples have to been dried at 25˚C - 28˚C for 7 to 10 days; third, pre-treatment of dried samples at 80˚C to 100˚C for 60 min has to be carried out before isolation; fourth, potassium bichromate 50 mg, or mixture solution of nystatin 100 mg, cycloheximide 50 mg and nalidixic acid 20 mg for 1000 ml medium, as inhibitors, have to be added in the isolation medium for inhibiting fungi and Gram negative bacteria; fifth, improvement Glycerol-Asparagine medium, Mycose-Proline medium and HV medium were better for isolation of actinobacteria from soil samples.
This work is supported by The GMSTEC (The Greater Mekong Subregion Tertiary Education Consortium Trust), the National Natural Science Foundation of China (No. 30900002 and No. 21062028), National Major scientific and technology special projects (2009ZX09302- 003), and National Institutes of Health USA (1P41GM0- 86184-01A1).