JPH0575757B2 - - Google Patents

Description

Detailed Description of the Invention (Technical Field) The present invention relates to an antibiotic RS-44B and a method for producing the same. Antibiotic RS- of the present invention
44B is an antibiotic belonging to the genus Streptomyces
This is a new antibiotic that has not been described in any literature and is isolated and collected from the culture of RS-44B-producing bacteria. Note that RS-44B is the same material as the material called "RS-44B" in the Chinese patent application corresponding to the present application.

(Background of the Invention) In recent years, many antibiotics have been discovered that can be used not only for medical purposes but also for agricultural purposes.

The present inventors have conventionally isolated a large number of microorganisms from soil in order to search for the above-mentioned useful antibiotics, and have purified, identified, and developed applications for the antibiotics produced by the microorganisms.

As a result, the present inventors previously discovered that Streptomyces sp. RS-44 (Streptomyces sp.
44), a novel antibiotic RS-
We successfully isolated and purified 44. As a result of further research, the present inventors discovered that a new antibiotic RS-44B, which has physicochemical and biological properties completely different from those of the antibiotic RS-44, was discovered from the culture of the RS-44 strain. were successfully isolated and purified.

(Objective of the Invention) An object of the present invention is to provide a novel antibiotic and a method for isolating and collecting the antibiotic from a microorganism belonging to the genus Streptomyces.

(Structure of the Invention) (Microorganisms Used) The microorganisms that produce the antibiotic RS-44B of the present invention belong to the genus Streptomyces and have the ability to produce the antibiotic RS-44B.

As an example, Streptomyces sp. RS-44 (hereinafter referred to as
It is called “RS-44 strain”. ) can be mentioned,
The microorganism has the above-mentioned characteristics, advantageously produces the antibiotic RS-44B of the present invention, and can be effectively used in the production method of the present invention.

In addition, not only natural and artificial mutant strains of the above-mentioned RS-44 strain, but also all microorganisms belonging to the genus Streptomyces that have the ability to produce the antibiotic RS-44B described below can be used in the method of the present invention. .

The above strain RS-44 is a soil actinomycete isolated from soil collected in Jiangsu Province, China, and was deposited with the Institute of Microbial Technology, Agency of Industrial Science and Technology on March 5, 1985, and its microorganism accession number is , Microtechnology Research Institute
No. 8684 (FERM P-8684).

The RS-44 strain has the following mycological properties.

1 Morphological characteristics This strain, RS-44 strain, was cultured in a cell analysis medium containing glucose yeast extract, and the cells were separated and dried, then hydrolyzed with 6N HCl at 110℃ for 20 hours, and cell wall amino acids were analyzed using paper chromatography. When this was detected, L,L-diaminopimelic acid was detected.

In addition, the aerial hyphae that grew on the agar plate formed a spiral hyphae, on which dozens of spores were formed, but no sporangia or motile spores were observed.

Based on the above, this bacterium belongs to Streptomyces. The spores have a cylindrical shape and a smooth surface.

2 Growth conditions on various media (27℃, 3 weeks culture, color tone is based on Descriptive Color Names)
(according to names dictionary) 1 Sucrose nitrate agar medium Growth: No growth 2 Glucose-aspartate agar medium Growth: Normal Aerial hyphae: Trace amount b (Oyster white) Back side: b (Oyster white) Pigment: None 3 Glycerin/asparagine agar medium Growth: Normal Aerial mycelium: Trace amount b (Oyster white) Back side: b (Oyster white) Pigment: None 4 Starch/Inorganic salt agar medium Growth: Good Aerial mycelium: Large amount 2ge ( Reverse side: 2ie (light mustard) Pigment: None 5 Tyrosine agar medium Growth: Good Aerial mycelium: abundant 3dc (natural) Reverse side: 21e (mustard) Pigment: 2ea (light maize) 6 Nutrient agar medium Development Growth: Good Aerial mycelium: None Back side: 11/2Ca (cream) Pigment: None 7 Yeast malt agar medium Growth: Good Aerial mycelium: Large amount 5fe (Atsushi) Back side: 21g (Mustard tan) Pigment: None 8 Oatmeal agar medium Growth: Poor Aerial mycelium: None Back side: Unknown Pigment: None 9 Peptone/yeast/iron agar medium Growth: Good Aerial mycelium: None Back side: 11/2ea (light yellow) Pigment: None 3 Carbon source assimilation (Pridham-Gottlieb agar medium) L-arabinose - D-xylose + D-glucose + D-fructose - sucrose - inositol - L-rhamnose - lifeinose - D-mannitol - +...Grows .

−……Does not develop.

4 Other physiological properties 1 Optimum temperature 25-35℃ 2 Liquefaction of gelatin (glucose, peptone,
On gelatin medium) Liquefy 3 Hydrolysis of starch (on starch inorganic salt agar medium) Hydrolyze 4 Coagulation of skim milk Coagulation 5 Liquefaction of skim milk Liquefy 6 Formation of melanin-like pigment (on tyrosine agar medium) None ( peptone-yeast iron agar) None Streptomyces with the above properties were added to Bergey's Manual of Determinative Bacteriology, 8th edition.
According to Determinative Bacteriology (8th ed.), it belongs to the WiSiC-iSM group and is most closely related to Streptomyces and Cacaoi based on its color tone and spore morphology; It is estimated that this bacterium is very closely related to this.

(Culture method and purification method) In order to obtain the antibiotic RS-44B of the present invention, the above-mentioned antibiotic-producing bacteria belonging to the genus Streptomyces can be cultured by a conventional method for producing antibiotics. The form of culture may be liquid culture or solid culture, and for industrially advantageous culturing, a spore suspension or culture solution of the above-mentioned producing bacteria may be inoculated into a medium and culture with aeration and stirring may be performed.

There are no particular limitations on the nutrient source for the medium, and the medium may contain carbon sources, nitrogen sources, and other sources commonly used for culturing microorganisms. Carbon sources include starch, dextrin, glycerin, glucose, sucrose, galactose, inositol, mannitol, etc. Nitrogen sources include peptone, soybean flour, meat extract, rice bran, wheat flour, urea, cornstap liquor, and ammonium salts. , nitrates and other organic or inorganic nitrogen compounds are used. In addition, inorganic salts such as common salt, phosphates, potassium, calcium,
Metal salts such as zinc, manganese, iron, etc. may be added as appropriate.
Vegetables, mineral oil, etc. may be added. Culture conditions such as culture temperature and culture time are suitable for the growth of the bacteria used, and
The case that will maximize the production of RS-44B will be selected. For example, the pH of the medium should preferably be 4 to 9, especially around neutrality, and the optimum culture temperature should be about 25° to 35°C. However, these culture conditions such as culture composition, hydrogen ion concentration of the medium, culture temperature, and stirring conditions should be adjusted as appropriate to obtain favorable results depending on the type of bacterial strain used and external conditions. Needless to say, it is. In order to obtain RS-44B from the culture thus obtained, it can be collected using appropriate means commonly used for collecting metabolites. For example, any of the methods that utilize the solubility difference between RS-44B and impurities, the ionic bond strength difference, the adsorption affinity difference, and the molecular weight difference may be used alone or , used in appropriate combinations or repeatedly. Specifically, RS-44B is mostly present in the culture filtrate. of the culture filtrate
The pH is adjusted to acidic side, for example, PH4.0, extracted with an organic solvent such as ethyl acetate, and the resulting oil is crystallized using methanol or the like. This is further performed using high performance liquid chromatography (e.g.
Nucleosyl ₅ C ₁₈ , developed with methanol:water = 8:2) to collect the active portion of RK-44B, and further crystallize using methanol in a conventional manner to obtain colorless crystals of RS-44B. .

The physicochemical properties and biological properties of RS-44B thus obtained are as follows.
(Physical and biological properties of antibiotic RS-44B) (1) Shape: Colorless crystal (2) Melting point: 157-160℃ (3) Elemental analysis: Carbon 58.14%, hydrogen 6.77%, nitrogen
10.70%, oxygen 24.13% (4) Molecular weight: 895 (according to FD mass spectrum) (5) Specific rotation: [α] ²⁵ _D -76° (C = 0.5, methanol) (6) Ultraviolet absorption spectrum: λ methanol maxnm (E1% 1cm) 230 (90), 265 shoulder (7.3), 268 shoulder (8.1), 274 (8.5), 282 (7.1) (as shown in Figure 1) (7) Infrared absorption spectrum: ν ^KBr _nax cm ⁽ 8) Acid hydrolysis : Acid hydrolysis gives serine, threonine, glycine, tyrosine and unknown amino acids.

(9) Color reaction: Dragendorf
Reaction, Rydon Smith
Smith) reaction (10) Solubility: Easily soluble in methanol, ethyl acetate, and chloroform, slightly soluble in water, pentane, hexane, and benzene (11) Thin layer chromatography: Silica gel thin film manufactured by Merck, USA (layer plate 0.25 mm) Solvent Rf value Chloroform: methanol = 10:1 0.57 Ethyl acetate: benzene = 4:1 0.13 (12) Antibacterial spectrum: Verified by the usual agar plate dilution method to determine the minimum inhibitory concentration (MIC). (Medium used: potato sucrose agar medium for mold, bouillon agar medium for bacteria).

As a result, RS-44B exhibits a strong growth-inhibiting effect against bacteria belonging to the genus Xanthomonas, and against ordinary bacteria and molds.
It showed almost no growth inhibiting effect.

Test bacteria MIC (mcg/ml) Xanthomonas oryzae
oryzae) 2 ΓXanthomonas citri (Xanthomonas
citri) 4 Escherichia coli
＞1000 ΓSalmonella typhimurium (Salmonella
typhimurium) ＞1000 Γ Staphylococcus aureus 209P
(Staphylococcus aureus209P) ＞1000 Bacillus subtilis
>1000 (Comparison with other substances) The RS-44B substance has the following physical and chemical properties:
It is considered to be a peptide antibiotic. However, no peptide antibiotic has been found to date that exhibits a strong growth-inhibiting effect specifically against bacteria of the genus Xanthomonas.
Therefore, it was concluded that RS-44B is a new substance.

(Utility) As mentioned above, RS-44B exhibits a strong growth-inhibiting effect on bacteria of the genus Xanthomonas, and is therefore expected to be used as an agricultural antibiotic.

Example 2% glucose, 1% soluble starch, meat extract
0.1%, dry yeast 0.4%, soy flour 2.5%, salt 02%,
RS-44 strain (FERM P-8684) was inoculated into a medium containing 0.005% potassium phosphate, and 96
The cells were cultured with shaking at 28°C for an hour.

This culture solution 25 was extracted with ethyl acetate at pH4,
An extract containing RS-44B active ingredients was obtained. This was concentrated under reduced pressure to obtain 4.8 g of an oil. after that,
Dissolve this oil in 200ml of methanol at 60℃,
Crystallization occurred when the temperature was lowered to 0°C. This was further filtered and washed with methanol to obtain 400 mg of colorless crystals. This was subjected to high performance liquid chromatography (column: 20 mmφ x 250 mm, Nucleosil 5C ₁₈ , solvent: methanol: water = 8:2, flow rate: 6.0 ml/min,
Pressure: 180Kg/ ^cm2 ), retention time 12 minutes RS
-44B activity peak appears. The active peak portion was collected and concentrated under reduced pressure until methanol disappeared, and the precipitate was filtered off and recrystallized from methanol to obtain 150 mg of RS-44B as pure colorless crystals.

[Brief explanation of the drawing]

FIG. 1 is a diagram showing the ultraviolet absorption spectrum of the antibiotic RS-44B of the present invention, and FIG. 2 is a diagram showing the infrared absorption spectrum of the antibiotic RS-44B.

Claims (1)

[Claims] 1. Antibiotic RS- having the following physicochemical properties:
44B. (1) Shape: Colorless crystal (2) Melting point: 157-160℃ (3) Elemental analysis: Carbon 58.14%, Hydrogen 6.77%, Nitrogen
10.70%, oxygen 24.13% (4) Molecular weight: 895 (according to FD mass spectrum) (5) Specific rotation: [α] ²⁵ _D -76° (C = 0.5, methanol) (6) Ultraviolet absorption spectrum: λ methanol maxnm (E1% 1cm) 230 (90), 265 shoulder (7.3), 268 shoulder (8.1), 274 (8.5), 282 (7.1) (7) Infrared absorption spectrum: ν ^KBr _nax cm ^-1 3300, 2950, 1725 , 1630, 1525, 1500, 1450, 1400, 1295, 1245, 1195, 1080, 1050, 1020, 825, 745, 695 (8) Acid hydrolysis: Acid hydrolysis produces serine, threonine, glycine, tyrosine and unknown amino acids. give. (9) Color reaction: Positive for Dragendorff reaction, Lydon-Smith reaction (10) Solubility: Easily soluble in methanol, ethyl acetate, chloroform, water, pentane, hexane,
Insoluble in benzene 2 A method for producing antibiotic RS-44B, which is characterized by culturing antibiotic RS-44B-producing bacteria belonging to the genus Streptomyces and separating and collecting antibiotic RS-44B from the culture. . 3 The antibiotic RS-44B-producing bacterium is Streptomyces sp.
44) The manufacturing method according to claim 2.