Aspergillomarasmine A overcomes metallo-β-lactamase antibiotic resistance.
about
New Delhi Metallo-β-Lactamase-Mediated Carbapenem Resistance: Origin, Diagnosis, Treatment and Public Health ConcernMembrane-active macromolecules resensitize NDM-1 gram-negative clinical isolates to tetracycline antibioticsStructural and biochemical characterization of VIM-26 shows that Leu224 has implications for the substrate specificity of VIM metallo-β-lactamasesAspergillus section Nidulantes (formerly Emericella): Polyphasic taxonomy, chemistry and biologyMultidrug evolutionary strategies to reverse antibiotic resistance.Update on the Epidemiology, Treatment, and Outcomes of Carbapenem-resistant Acinetobacter infections.Antibiotic adjuvants: diverse strategies for controlling drug-resistant pathogens.A chemical ecogenomics approach to understand the roles of secondary metabolites in fungal cereal pathogens.Total synthesis of clostrubin.Epidemiology, associated factors and outcomes of ICU-acquired infections caused by Gram-negative bacteria in critically ill patients: an observational, retrospective study.Antibacterial activity and mechanism of action of auranofin against multi-drug resistant bacterial pathogens.Exploitation of Fungal Biodiversity for Discovery of Novel Antibiotics.A High-Throughput Approach To Identify Compounds That Impair Envelope Integrity in Escherichia coliExploring the Role of Residue 228 in Substrate and Inhibitor Recognition by VIM Metallo-β-lactamases.David and Goliath: chemical perturbation of eukaryotes by bacteria.Repurposing auranofin for the treatment of cutaneous staphylococcal infections.B1-Metallo-β-Lactamases: Where Do We Stand?Fungal naphtho-γ-pyrones: Potent antibiotics for drug-resistant microbial pathogens.Bisthiazolidines: A Substrate-Mimicking Scaffold as an Inhibitor of the NDM-1 Carbapenemase.Inner Workings: Combating antibiotic resistance from the ground upCombinatorial strategies for combating invasive fungal infections.Property-Guided Synthesis of Aza-Tricyclic Indolines: Development of Gold Catalysis En Route.NMR-filtered virtual screening leads to non-metal chelating metallo-β-lactamase inhibitorsAntibacterial resistance: an emerging 'zoonosis'?Unconventional screening approaches for antibiotic discovery.Progress toward inhibitors of metallo-β-lactamases.Strategies for target identification of antimicrobial natural products.One ring to rule them all: Current trends in combating bacterial resistance to the β-lactamsFuture therapies targeted towards eliminating Candida biofilms and associated infections.New Delhi metallo-β-lactamase-1: structure, inhibitors and detection of producers.The analysis of the antibiotic resistome offers new opportunities for therapeutic intervention.Total Synthesis and Activity of the Metallo-β-lactamase Inhibitor Aspergillomarasmine A.Peptide-conjugated phosphorodiamidate morpholino oligomer (PPMO) restores carbapenem susceptibility to NDM-1-positive pathogens in vitro and in vivo.The Role of Active Site Flexible Loops in Catalysis and of Zinc in Conformational Stability of Bacillus cereus 569/H/9 β-Lactamase.Inhibition of New Delhi Metallo-β-Lactamase 1 (NDM-1) Producing Escherichia coli IR-6 by Selected Plant Extracts and Their Synergistic Actions with Antibiotics.Opportunities for natural products in 21st century antibiotic discovery.Tetracyclic indolines as a novel class of β-lactam-selective resistance-modifying agent for MRSA.Total Synthesis of Aspergillomarasmine A and Related Compounds: A Sulfamidate Approach Enables Exploration of Structure-Activity Relationships.Digging for new solutions.Total Synthesis and Structural Reassignment of Aspergillomarasmine A.
P2860
Q26998659-FB6DCFE2-6DA3-441D-8CE4-AD4C3CE6C666Q27312185-4AF23BEF-F26C-498D-ADAE-2BD46C8F9C16Q27697590-35B5F2A5-A763-4E9F-B935-33AC2FDEFB29Q28818416-B9FFC4D4-ED77-4D97-8B3C-639AEFAFF5F9Q33871101-124C72FB-CAE4-424D-A1A7-A60C2F5CEF41Q34168292-726640CD-2ACD-4D1F-BE01-2EC7511A7CF1Q34447679-81FAA194-FD3B-4842-BAA4-B3B5F24AC58CQ34541019-CB329BCB-9251-4479-8E62-9782055127D3Q35245011-5AEDE1F5-7B60-47C9-B3AF-0143D7AC0839Q35782685-BDEEBED7-AC7A-4B46-AEDA-2B04DBC142E0Q35943844-093FA6D4-F4E1-4FD1-8C23-660E7B6C91C9Q36079283-7FB6DAD4-607B-41EF-92BF-4C6D809C99A7Q36085645-1456D024-A0D8-4A2E-9A8E-BDDD7614F80FQ36428146-08DEEE5D-3E74-49DD-A6BF-65F3D07FB01FQ36577080-F2612D15-062A-4C7B-820A-44C0D6274957Q36689702-5892E21E-B105-4B7A-AF75-1E1DEFCB24CEQ36746608-27D105A9-E11B-4A74-945B-D0FDB3A01601Q36785081-14AF1D19-34AB-40DF-8325-7056E2DA83ECQ37340068-CA678791-CE06-4435-8115-62657F12F5FDQ37369363-66646B6F-B852-4271-B3E6-225BF138F3E0Q37705303-AF0AD8F6-6B2F-46FB-BF32-26F8301669EAQ37723029-6779D3BD-E877-45D7-B6B1-128309D67068Q37725029-F72F24EB-98EA-41FB-9CDB-61E38675E164Q38263035-338BEE03-F097-4A9F-AF60-4C7C015614ACQ38534653-380BA6B6-4E9D-4493-B744-B3807DBF227CQ38683817-AE586679-FEC4-4D0A-B635-DAE1996FB62AQ38710256-373F5F52-7D09-474E-81EC-F88FE7C67FACQ38712471-D63B1DBB-F6A8-457C-BC34-5652A8161868Q38786061-81FB8E93-CE52-43AB-8DAB-8DB2649AD3E0Q38851403-96512CB9-EB6B-47CF-96CB-CD30AB8B04D9Q38852902-2BF85DE5-EEB6-4C76-AF44-6A7C4A681CB6Q38927422-42DA9162-6E55-4135-9BF5-EB532FF9F50AQ39080538-90ADEC99-5C5D-4043-89AD-B7C68C4F9120Q39729538-1555AAF2-77B2-4173-8205-09756D90A23EQ40063537-89839AF8-1904-4AB7-9C3E-B173FC2FEAC6Q40189627-68D31043-B164-474C-AC41-748EEE13EEB4Q40530965-4306A93D-15C1-46AD-AD1E-0B572F1D06A8Q40538609-22476CF6-47E7-4318-AB77-388C7B301F36Q40840465-5B70A80B-BB1B-4D0B-B488-A4533585B582Q40900561-DE2BC7E4-7E68-47AD-89F7-2CAAF162D0F5
P2860
Aspergillomarasmine A overcomes metallo-β-lactamase antibiotic resistance.
description
2014 nî lūn-bûn
@nan
2014 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2014 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2014年の論文
@ja
2014年論文
@yue
2014年論文
@zh-hant
2014年論文
@zh-hk
2014年論文
@zh-mo
2014年論文
@zh-tw
2014年论文
@wuu
name
Aspergillomarasmine A overcomes metallo-β-lactamase antibiotic resistance.
@ast
Aspergillomarasmine A overcomes metallo-β-lactamase antibiotic resistance.
@en
Aspergillomarasmine A overcomes metallo-β-lactamase antibiotic resistance.
@nl
type
label
Aspergillomarasmine A overcomes metallo-β-lactamase antibiotic resistance.
@ast
Aspergillomarasmine A overcomes metallo-β-lactamase antibiotic resistance.
@en
Aspergillomarasmine A overcomes metallo-β-lactamase antibiotic resistance.
@nl
prefLabel
Aspergillomarasmine A overcomes metallo-β-lactamase antibiotic resistance.
@ast
Aspergillomarasmine A overcomes metallo-β-lactamase antibiotic resistance.
@en
Aspergillomarasmine A overcomes metallo-β-lactamase antibiotic resistance.
@nl
P2093
P2860
P50
P356
P1433
P1476
Aspergillomarasmine A overcomes metallo-β-lactamase antibiotic resistance.
@en
P2093
Andrew M King
Dustin T King
Gianfranco De Pascale
Natalie C Strynadka
Sarah A Reid-Yu
Wenliang Wang
P2860
P2888
P304
P356
10.1038/NATURE13445
P407
P577
2014-06-01T00:00:00Z
P5875
P6179
1039580452