Omura_2001_Proc.Natl.Acad.Sci.U.S.A_98_12215

Reference

Title : Genome sequence of an industrial microorganism Streptomyces avermitilis: deducing the ability of producing secondary metabolites - Omura_2001_Proc.Natl.Acad.Sci.U.S.A_98_12215
Author(s) : Omura S , Ikeda H , Ishikawa J , Hanamoto A , Takahashi C , Shinose M , Takahashi Y , Horikawa H , Nakazawa H , Osonoe T , Kikuchi H , Shiba T , Sakaki Y , Hattori M
Ref : Proc Natl Acad Sci U S A , 98 :12215 , 2001
Abstract :

Streptomyces avermitilis is a soil bacterium that carries out not only a complex morphological differentiation but also the production of secondary metabolites, one of which, avermectin, is commercially important in human and veterinary medicine. The major interest in this genus Streptomyces is the diversity of its production of secondary metabolites as an industrial microorganism. A major factor in its prominence as a producer of the variety of secondary metabolites is its possession of several metabolic pathways for biosynthesis. Here we report sequence analysis of S. avermitilis, covering 99% of its genome. At least 8.7 million base pairs exist in the linear chromosome; this is the largest bacterial genome sequence, and it provides insights into the intrinsic diversity of the production of the secondary metabolites of Streptomyces. Twenty-five kinds of secondary metabolite gene clusters were found in the genome of S. avermitilis. Four of them are concerned with the biosyntheses of melanin pigments, in which two clusters encode tyrosinase and its cofactor, another two encode an ochronotic pigment derived from homogentiginic acid, and another polyketide-derived melanin. The gene clusters for carotenoid and siderophore biosyntheses are composed of seven and five genes, respectively. There are eight kinds of gene clusters for type-I polyketide compound biosyntheses, and two clusters are involved in the biosyntheses of type-II polyketide-derived compounds. Furthermore, a polyketide synthase that resembles phloroglucinol synthase was detected. Eight clusters are involved in the biosyntheses of peptide compounds that are synthesized by nonribosomal peptide synthetases. These secondary metabolite clusters are widely located in the genome but half of them are near both ends of the genome. The total length of these clusters occupies about 6.4% of the genome.

PubMedSearch : Omura_2001_Proc.Natl.Acad.Sci.U.S.A_98_12215
PubMedID: 11572948
Gene_locus related to this paper: strav-cah , strav-GEOB , strav-OLMA7 , strav-OLMC , strav-PCAL , strav-PTEA5 , strav-PTEH , strav-Q93GY0 , strav-Q93GY7 , strav-Q93H00 , strav-Q93H03 , strav-Q93H41 , strav-Q93H55 , strav-Q93H68 , strav-Q93H73 , strav-Q93HG2 , strav-Q93HH2 , strav-Q93HH8 , strav-Q93HI2 , strav-SAV38 , strav-SAV141 , strav-SAV154 , strav-SAV297 , strav-SAV298 , strav-SAV299 , strav-SAV433 , strav-SAV469 , strav-SAV512 , strav-SAV519 , strav-SAV541 , strav-SAV569 , strav-SAV620 , strav-SAV819 , strav-SAV875 , strav-SAV888 , strav-SAV906 , strav-SAV923 , strav-SAV974 , strav-SAV1231 , strav-SAV1256 , strav-SAV1457 , strav-SAV1549 , strav-SAV1585 , strav-SAV1746 , strav-SAV1898 , strav-SAV1906 , strav-SAV1959 , strav-SAV1968 , strav-SAV1973 , strav-SAV2099 , strav-SAV2105 , strav-SAV2113 , strav-SAV2604 , strav-SAV2722 , strav-SAV3039 , strav-SAV3080 , strav-SAV3081 , strav-SAV3092 , strav-SAV3099 , strav-SAV3144 , strav-SAV3359 , strav-SAV3461 , strav-SAV3624 , strav-SAV3810 , strav-SAV3854 , strav-SAV4041 , strav-SAV4252 , strav-SAV4410 , strav-SAV4434 , strav-SAV4531 , strav-SAV4564 , strav-SAV4596 , strav-SAV4674 , strav-SAV4779 , strav-SAV4863 , strav-SAV4922 , strav-SAV4968 , strav-SAV5173 , strav-SAV5300 , strav-SAV5344 , strav-SAV5668 , strav-SAV5711 , strav-SAV5844 , strav-SAV5965 , strav-SAV6079 , strav-SAV6138 , strav-SAV6422 , strav-SAV6559 , strav-SAV6609 , strav-SAV7067 , strav-SAV7089 , strav-SAV7110 , strav-SAV7198 , strav-SAV7423 , strav-SAV7455 , strav-SAV7475 , strav-SLPD , straw-AVEG , straw-pepx , straw-q82bb0 , straw-q82en5 , straw-q82et1 , straw-q93hc9 , straw-SAV1543 , straw-SAV2023 , strax-Q93H72

Related information

Gene_locus strav-cah    strav-GEOB    strav-OLMA7    strav-OLMC    strav-PCAL    strav-PTEA5    strav-PTEH    strav-Q93GY0    strav-Q93GY7    strav-Q93H00    strav-Q93H03    strav-Q93H41    strav-Q93H55    strav-Q93H68    strav-Q93H73    strav-Q93HG2    strav-Q93HH2    strav-Q93HH8    strav-Q93HI2    strav-SAV38    strav-SAV141    strav-SAV154    strav-SAV297    strav-SAV298    strav-SAV299    strav-SAV433    strav-SAV469    strav-SAV512    strav-SAV519    strav-SAV541    strav-SAV569    strav-SAV620    strav-SAV819    strav-SAV875    strav-SAV888    strav-SAV906    strav-SAV923    strav-SAV974    strav-SAV1231    strav-SAV1256    strav-SAV1457    strav-SAV1549    strav-SAV1585    strav-SAV1746    strav-SAV1898    strav-SAV1906    strav-SAV1959    strav-SAV1968    strav-SAV1973    strav-SAV2099    strav-SAV2105    strav-SAV2113    strav-SAV2604    strav-SAV2722    strav-SAV3039    strav-SAV3080    strav-SAV3081    strav-SAV3092    strav-SAV3099    strav-SAV3144    strav-SAV3359    strav-SAV3461    strav-SAV3624    strav-SAV3810    strav-SAV3854    strav-SAV4041    strav-SAV4252    strav-SAV4410    strav-SAV4434    strav-SAV4531    strav-SAV4564    strav-SAV4596    strav-SAV4674    strav-SAV4779    strav-SAV4863    strav-SAV4922    strav-SAV4968    strav-SAV5173    strav-SAV5300    strav-SAV5344    strav-SAV5668    strav-SAV5711    strav-SAV5844    strav-SAV5965    strav-SAV6079    strav-SAV6138    strav-SAV6422    strav-SAV6559    strav-SAV6609    strav-SAV7067    strav-SAV7089    strav-SAV7110    strav-SAV7198    strav-SAV7423    strav-SAV7455    strav-SAV7475    strav-SLPD    straw-AVEG    straw-pepx    straw-q82bb0    straw-q82en5    straw-q82et1    straw-q93hc9    straw-SAV1543    straw-SAV2023    strax-Q93H72
Gene_locus_frgt strav-SAV90    strav-SAV721    strav-SAV1522    strav-SAV6001    straw-q82q11

Citations formats

Omura S, Ikeda H, Ishikawa J, Hanamoto A, Takahashi C, Shinose M, Takahashi Y, Horikawa H, Nakazawa H, Osonoe T, Kikuchi H, Shiba T, Sakaki Y, Hattori M (2001)
Genome sequence of an industrial microorganism Streptomyces avermitilis: deducing the ability of producing secondary metabolites
Proc Natl Acad Sci U S A 98 :12215

Omura S, Ikeda H, Ishikawa J, Hanamoto A, Takahashi C, Shinose M, Takahashi Y, Horikawa H, Nakazawa H, Osonoe T, Kikuchi H, Shiba T, Sakaki Y, Hattori M (2001)
Proc Natl Acad Sci U S A 98 :12215