Papulacandin B
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| Category | Antibiotics |
| Catalog number | BBF-02359 |
| CAS | 61032-80-2 |
| Molecular Weight | 901.00 |
| Molecular Formula | C47H64O17 |
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Description
It is produced by the strain of Papularia sphaerosperma. It has strong anti-yeast effect, but no effect on filiform fungi, bacteria and protozoa. It has no cross-resistance with polyene antibiotics, Conocandin and azole antifungal chemotherapy drugs, but has partial cross-resistance with Echinocandin B. Among the four components, Papulacandin C has the strongest activity and Papulacandin D has the weakest activity. The mechanism of B is to inhibit the synthesis of glucan in yeast cell wall.
Specification
| Synonyms | alpha-D-Glucopyranose, 1,16-anhydro-1-C-(2,4-dihydroxy-6-(hydroxymethyl)phenyl)-4-O-(6-O-(8-hydroxy-1-oxo-2,4,6-decatrienyl)-beta-D-galactopyranosyl)-, 3-(7-hydroxy-8,14-dimethyl-2,4,8,10-hexadecatetraenoate); β-D-Galactopyranoside, (1S,3'R,4'R,5'R,6'R)-3',4',5',6'-tetrahydro-3',5,7-trihydroxy-4'-[[(2E,4E,8E,10E)-7-hydroxy-8,14-dimethyl-1-oxo-2,4,8,10-hexadecatetraen-1-yl]oxy]-6'-(hydroxymethyl)spiro[isobenzofuran-1(3H),2'-[2H]pyran]-5'-yl,6-[(2E,4Z,6E)-8-hydroxy-2,4,6-decatrienoate] |
| IUPAC Name | [(3S,3'R,4'R,5'R,6'R)-3',4,6-trihydroxy-6'-(hydroxymethyl)-5'-[(2S,3R,4S,5R,6R)-3,4,5-trihydroxy-6-[[(2E,4Z,6E)-8-hydroxydeca-2,4,6-trienoyl]oxymethyl]oxan-2-yl]oxyspiro[1H-2-benzofuran-3,2'-oxane]-4'-yl] (2E,4E,7S,8E,10E,14S)-7-hydroxy-8,14-dimethylhexadeca-2,4,8,10-tetraenoate |
| Canonical SMILES | CCC(C)CCC=CC=C(C)C(CC=CC=CC(=O)OC1C(C(OC2(C1O)C3=C(CO2)C=C(C=C3O)O)CO)OC4C(C(C(C(O4)COC(=O)C=CC=CC=CC(CC)O)O)O)O)O |
| InChI | InChI=1S/C47H64O17/c1-5-28(3)17-11-9-12-18-29(4)33(51)20-14-10-16-22-38(54)62-44-43(35(25-48)64-47(45(44)58)39-30(26-60-47)23-32(50)24-34(39)52)63-46-42(57)41(56)40(55)36(61-46)27-59-37(53)21-15-8-7-13-19-31(49)6-2/h7-10,12-16,18-19,21-24,28,31,33,35-36,40-46,48-52,55-58H,5-6,11,17,20,25-27H2,1-4H3/b8-7-,12-9+,14-10+,19-13+,21-15+,22-16+,29-18+/t28-,31?,33-,35+,36+,40-,41-,42+,43+,44-,45+,46-,47-/m0/s1 |
| InChI Key | UJLFRJFJTPPIOK-RZGJRGQUSA-N |
Properties
| Appearance | Colorless Amorphous Powder |
| Antibiotic Activity Spectrum | Yeast |
| Boiling Point | 1079.8°C at 760 mmHg |
| Melting Point | 193-197°C (dec.) |
| Density | 1.36 g/cm3 |
| Solubility | Soluble in Chloroform, Methanol, Ethanol, DMF, Acetone, Ethyl Acetate, DMSO |
Reference Reading
1. cps1+, a Schizosaccharomyces pombe gene homolog of Saccharomyces cerevisiae FKS genes whose mutation confers hypersensitivity to cyclosporin A and papulacandin B
J Ishiguro, A Saitou, A Durán, J C Ribas J Bacteriol. 1997 Dec;179(24):7653-62. doi: 10.1128/jb.179.24.7653-7662.1997.
The Schizosaccharomyces pombe cps1-12 (for chlorpropham supersensitive) mutant strain was originally isolated as hypersensitive to the spindle poison isopropyl N-3-chlorophenyl carbamate (chlorpropham) (J. Ishiguro and Y. Uhara, Jpn. J. Genet. 67:97-109, 1992). We have found that the cps1-12 mutation also confers (i) hypersensitivity to the immunosuppressant cyclosporin A (CsA), (ii) hypersensitivity to the drug papulacandin B, which specifically inhibits 1,3-beta-D-glucan synthesis both in vivo and in vitro, and (iii) thermosensitive growth at 37 degrees C. Under any of these restrictive treatments, cells swell up and finally lyse. With an osmotic stabilizer, cells do not lyse, but at 37 degrees C they become multiseptated and multibranched. The cps1-12 mutant, grown at a restrictive temperature, showed an increase in sensitivity to lysis by enzymatic cell wall degradation, in in vitro 1,3-beta-D-glucan synthase activity (173% in the absence of GTP in the reaction), and in cell wall biosynthesis (130% of the wild-type amount). Addition of Ca2+ suppresses hypersensitivity to papulacandin B and septation and branching phenotypes. All of these data suggest a relationship between the cps1+ gene and cell wall synthesis. A DNA fragment containing the cps1+ gene was cloned, and sequence analysis indicated that it encodes a predicted membrane protein of 1,729 amino acids with 15 to 16 transmembrane domains. S. pombe cps1p has overall 55% sequence identity with Fks1p or Fks2p, proposed to be catalytic or associated subunits of Saccharomyces cerevisiae 1,3-beta-D-glucan synthase. Thus, the cps1+ product might be a catalytic or an associated copurifying subunit of the fission yeast 1,3-beta-D-glucan synthase that plays an essential role in cell wall synthesis.
2. Action properties of HYI killer toxin from Williopsis saturnus var. saturnus, and antibiotics, aculeacin A and papulacandin B
T Komiyama, T Shirai, T Ohta, H Urakami, Y Furuichi, Y Ohta, Y Tsukada Biol Pharm Bull. 1998 Oct;21(10):1013-9. doi: 10.1248/bpb.21.1013.
The mechanism of the killing and cytocidal effects produced by HYI toxin from Williopsis saturnus var. saturnus, and by the amphiphilic antibiotics aculeacin A and papulacandin B on yeast Saccharomyces bayanus cells was studied. When the yeast cells were treated with these molecules, a discharge of cell materials at the budding position was observed by phase-contrast and scanning electron microscopy. The cytocidal effect of these molecules was most pronounced when the cells were in the logarithmic growth phase. Washing the HYI toxin incubation mixture completely eliminated the killing activity, but in the case of the antibiotics, it only partially reduced the cytocidal activity. Full recovery of the killing activity in the supernatant of the washing solution was observed after HYI toxin incubation, but in the case of the antibiotics, the recovery of cytocidal activity was time-dependent. The activity of membrane beta-1,3-glucan synthase was potently inhibited by HYI toxin, and the concentration of this enzyme in the budding tip was observed. These results suggest that HYI toxin exerts a cytocidal effect on the budding of sensitive yeast cells by inhibiting cell wall synthesis. This mechanism is similar to that of the HM-1 toxin of W. saturnus var. mrakii, and to aculeacin A and papulacandin B, although there are some differences from that of HYI toxin.
3. Papulacandin B resistance in budding and fission yeasts: isolation and characterization of a gene involved in (1,3)beta-D-glucan synthesis in Saccharomyces cerevisiae
C Castro, J C Ribas, M H Valdivieso, R Varona, F del Rey, A Duran J Bacteriol. 1995 Oct;177(20):5732-9. doi: 10.1128/jb.177.20.5732-5739.1995.
Papulacandin B, an antifungal agent that interferes with the synthesis of yeast cell wall (1,3)beta-D-glucan, was used to isolate resistant mutants in Schizosaccharomyces pombe and Saccharomyces cerevisiae. The resistance to papulacandin B always segregated as a recessive character that defines a single complementation group in both yeasts (pbr1+ and PBR1, respectively). Determination of several kinetic parameters of (1,3)beta-D-glucan synthase activity revealed no differences between S. pombe wild-type and pbr1 mutant strains except in the 50% inhibitory concentration for papulacandin B of the synthases (about a 50-fold increase in mutant activity). Inactivation of the synthase activity of both yeasts after in vivo treatment with the antifungal agent showed that mutant synthases were more resistant than the corresponding wild-type ones. Detergent dissociation of the S. pombe synthase into soluble and particulate fractions and subsequent reconstitution indicated that the resistance character of pbr1 mutants resides in the particulate fraction of the enzyme. Cloning and sequencing of PBR1 from S. cerevisiae revealed a gene identical to others recently reported (FKS1, ETG1, CWH53, and CND1). Its disruption leads to reduced levels of both (1,3)beta-D-glucan synthase activity and the alkali-insoluble cell wall fraction. Transformants containing the PBR1 gene reverse the defect in (1,3)beta-D-glucan synthase. It is concluded that Pbr1p is probably part of the (1,3)beta-D-glucan synthase complex.
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Bio Calculators
* Our calculator is based on the following equation:
Concentration (start) x Volume (start) = Concentration (final) x Volume (final)
It is commonly abbreviated as: C1V1 = C2V2
* Total Molecular Weight:
g/mol
Tip: Chemical formula is case sensitive. C22H30N4O √ c22h30n40 ╳
