Derivatives of pUC18 that have BglII sites flanking a modified multiple cloning site and that retain the ability to identify recombinant clones by visual screening of Escherichia coli colonies.
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In vivo and in vitro bioconversion of epsilon-rhodomycinone glycoside to doxorubicin: functions of DauP, DauK, and DoxAGlobal negative regulation of Streptomyces coelicolor antibiotic synthesis mediated by an absA-encoded putative signal transduction systemStructural and functional characterizations of SsgB, a conserved activator of developmental cell division in morphologically complex actinomycetesA novel nucleoid-associated protein specific to the actinobacteriaIdentification and expression of genes involved in biosynthesis of L-oleandrose and its intermediate L-olivose in the oleandomycin producer Streptomyces antibioticusTranscriptional analysis of the cell division-related ssg genes in Streptomyces coelicolor reveals direct control of ssgR by AtrAGeneration of a non-sporulating strain of Streptomyces coelicolor A3(2) by the manipulation of a developmentally controlled ftsZ promoterSsgA-like proteins determine the fate of peptidoglycan during sporulation of Streptomyces coelicolorWhiA, a protein of unknown function conserved among gram-positive bacteria, is essential for sporulation in Streptomyces coelicolor A3(2).Characterization of [4Fe-4S]-containing and cluster-free forms of Streptomyces WhiD.The bldC developmental locus of Streptomyces coelicolor encodes a member of a family of small DNA-binding proteins related to the DNA-binding domains of the MerR family.xln23 from Streptomyces chattanoogensis UAH23 encodes a putative enzyme with separate xylanase and arabinofuranosidase catalytic domains.Genetic and transcriptional analysis of absA, an antibiotic gene cluster-linked two-component system that regulates multiple antibiotics in Streptomyces coelicolor.The bldD gene of Streptomyces coelicolor A3(2): a regulatory gene involved in morphogenesis and antibiotic production.Characterization of the sporulation control protein SsgA by use of an efficient method to create and screen random mutant libraries in streptomycetesA Streptomyces coelicolor antibiotic regulatory gene, absB, encodes an RNase III homologglkA is involved in glucose repression of chitinase production in Streptomyces lividansCharacterization of ssfR and ssgA, two genes involved in sporulation of Streptomyces griseus.The actinomycin biosynthetic gene cluster of Streptomyces chrysomallus: a genetic hall of mirrors for synthesis of a molecule with mirror symmetry.Role of an essential acyl coenzyme A carboxylase in the primary and secondary metabolism of Streptomyces coelicolor A3(2).ssgA is essential for sporulation of Streptomyces coelicolor A3(2) and affects hyphal development by stimulating septum formation.Gene cluster responsible for validamycin biosynthesis in Streptomyces hygroscopicus subsp. jinggangensis 5008Identification and characterization of a developmentally regulated protein, EshA, required for sporogenic hyphal branches in Streptomyces griseus.Gene replacement analysis of the butyrolactone autoregulator receptor (FarA) reveals that FarA acts as a Novel regulator in secondary metabolism of Streptomyces lavendulae FRI-5.Differential regulation of ftsZ transcription during septation of Streptomyces griseus.Functional analysis of relA and rshA, two relA/spoT homologues of Streptomyces coelicolor A3(2).Complex intra-operonic dynamics mediated by a small RNA in Streptomyces coelicolor.A laterally acquired galactose oxidase-like gene is required for aerial development during osmotic stress in Streptomyces coelicolor.Functional analysis of the validamycin biosynthetic gene cluster and engineered production of validoxylamine A.Generation of food-grade recombinant Lactobacillus casei delivering Myxococcus xanthus prolyl endopeptidase.Dual amyloid domains promote differential functioning of the chaplin proteins during Streptomyces aerial morphogenesisIdentification of new developmentally regulated genes involved in Streptomyces coelicolor sporulation.Regulation of ppk expression and in vivo function of Ppk in Streptomyces lividans TK24Purification of a malonyltransferase from Streptomyces coelicolor A3(2) and analysis of its genetic determinantExpression of a functional fungal polyketide synthase in the bacterium Streptomyces coelicolor A3(2).Analysis of a gene that suppresses the morphological defect of bald mutants of Streptomyces griseus.Minimal Streptomyces sp. strain C5 daunorubicin polyketide biosynthesis genes required for aklanonic acid biosynthesisPhosphoinositides are involved in control of the glucose-dependent growth resumption that follows the transition phase in Streptomyces lividans.bldA-dependent expression of the Streptomyces exfoliatus M11 lipase gene (lipA) is mediated by the product of a contiguous gene, lipR, encoding a putative transcriptional activatorAnalysis of the Streptomyces coelicolor sigE gene reveals the existence of a subfamily of eubacterial RNA polymerase sigma factors involved in the regulation of extracytoplasmic functions
P2860
Q24678978-5905893B-6B8A-494B-9A2C-EC6F0CA76514Q24683669-2C0A2452-C50A-4F4A-85E6-B2014017EF09Q27644082-CD4CE89C-0396-41C4-98BE-7D394FA2B1E0Q27676494-6F1A4BA4-70BE-44B6-B7FB-1F61AFACBDF6Q28344149-1EFF7F49-26B9-458E-AA77-5F8B480C8B51Q28504073-E6FF1B0B-5B98-40E9-A530-3BE04D86FCE4Q28504088-932158AB-4573-4B6C-8A76-24B81612324FQ28504089-C2636F94-E0E3-442B-A4F4-30AAB081F625Q28504091-988D2004-43FE-46C3-A8F1-D42A42AAC50AQ30433748-BD06D4ED-3120-45A2-A8E1-20E12C05F62DQ30775239-EFBE3449-B506-4E18-92D2-58D10B431637Q30786603-58FF68D8-D20F-4216-8A4C-001719B7120DQ31906918-86FD4941-6F26-45E9-A288-65ABBA5E80FCQ32084472-F570B5D5-9158-4620-8A8B-D49AA8ACA822Q33273204-1CC7570D-FC16-4FD9-89A3-51F88D97ADF1Q33636011-315103E3-E8C6-4B0C-A654-C406425AC968Q33731511-FA61F14A-787E-4FEE-8888-A8FE456D05BFQ33787493-37410BFD-F393-493C-9708-BF92E1968721Q33826162-292021CE-04BE-4F07-B56A-0B9A6B2A4C59Q33990283-CA1E590A-7F1F-4E47-921A-FFB5464542B3Q33994651-B59FBBB0-FEB2-4CB7-9E8E-FF2C339E5AE6Q33996017-2502556C-F2C6-411B-8AD6-8F87D36520D0Q33996144-620728FE-62F0-49E8-BDC0-D323115E0434Q33996562-31DD78F0-5DA9-4C0D-827F-C70BC8F1D120Q33996726-1FD690CA-B54F-4243-9FDC-57E61F2828DFQ34011883-69FBF337-1410-4634-8195-9407D65C21E3Q34400220-ADC66130-9C96-4783-9655-AA730D5A5878Q34552152-75684714-6B10-444E-B5D0-E666B3F01467Q34660688-5BF5766D-0F55-4B17-81BA-9C244BB2EC7DQ34661417-D86254B3-B5B6-4D41-A48D-547DCD1D46ABQ35049217-24BBCE02-1152-463A-801B-BC2B93BEFA00Q35059570-835725FD-A117-42B2-A52E-872C6AA8E9D7Q35075249-D09C854A-8EE0-4261-B1AA-8BBA4C1AEF93Q35589890-57A7EEB0-B27A-4B01-9A8C-E167B6AF04E1Q35591997-7F766614-3FD9-4393-9D31-009E9F746A34Q35607400-55F98F37-F2E8-4C4A-8FB3-B8DCC39E624AQ35622287-8C454F22-68C3-4B12-9112-A0B89C822BE9Q35634611-7A030822-53A7-43AF-8296-D030C2258843Q35635042-8150FF30-1C07-4878-B0B7-7DFA90D9FDCFQ35648817-0A7F2259-4B54-475F-B11E-8A41AC54C54F
P2860
Derivatives of pUC18 that have BglII sites flanking a modified multiple cloning site and that retain the ability to identify recombinant clones by visual screening of Escherichia coli colonies.
description
1993 nî lūn-bûn
@nan
1993年の論文
@ja
1993年学术文章
@wuu
1993年学术文章
@zh
1993年学术文章
@zh-cn
1993年学术文章
@zh-hans
1993年学术文章
@zh-my
1993年学术文章
@zh-sg
1993年學術文章
@yue
1993年學術文章
@zh-hant
name
Derivatives of pUC18 that have ...... of Escherichia coli colonies.
@en
Derivatives of pUC18 that have ...... of Escherichia coli colonies.
@nl
type
label
Derivatives of pUC18 that have ...... of Escherichia coli colonies.
@en
Derivatives of pUC18 that have ...... of Escherichia coli colonies.
@nl
prefLabel
Derivatives of pUC18 that have ...... of Escherichia coli colonies.
@en
Derivatives of pUC18 that have ...... of Escherichia coli colonies.
@nl
P1433
P1476
Derivatives of pUC18 that have ...... of Escherichia coli colonies.
@en
P2093
P304
P356
10.1016/0378-1119(93)90774-W
P407
P577
1993-02-01T00:00:00Z