Inhibition of bacterial growth and nucleic acids synthesis by planar complexes of rhodium (I)

scientific article published on 01 July 1974

Inhibition of bacterial growth and nucleic acids synthesis by planar complexes of rhodium (I) is …
instance of (P31):
scholarly articleQ13442814

External links are
P356DOI10.1016/0014-5793(74)81093-8
P698PubMed publication ID4604611

P2093author name stringGiraldi T
Mestroni G
Zassinovich G
Cantini M
Bragadin CM
P2860cites workIsolation of an E. coli Strain with a Mutation affecting DNA PolymeraseQ28247392
Binding of silver sulfadiazine to the cellular components of Pseudomonas aeruginosaQ38361672
Inhibitory effects of anti-tumor platinum compounds on DNA, RNA and protein syntheses in mammalian cells in virtroQ44552882
Antibacterial Properties of Silver Chelates of Uracil and Uracil Derivatives <i>in vitro</i>Q50237512
Platinum coordination complexes in cancer chemotherapy.Q53728172
Growth of Microorganisms in the Presence of Transition Metal Complexes: the Antibacterial Activity of trans-Dihalogenotetrapyridinerhodium(III) SaltsQ59094014
Cross-linking of Complementary Strands of DNA in Mammalian Cells by Antitumour Platinum CompoundsQ59096780
A proposed mode of action of antitumor platinum compounds based upon studies with cis-dichloro-((G- 3 H)dipyridine)platinum(II)Q70382231
Cis-dichlorodiammineplatinum (II). Persistent and selective inhibition of deoxyribonucleic acid synthesis in vivoQ71588838
P433issue1
P407language of work or nameEnglishQ1860
P921main subjectrhodiumQ1087
P304page(s)13-16
P577publication date1974-07-01
P1433published inFEBS LettersQ1388051
P1476titleInhibition of bacterial growth and nucleic acids synthesis by planar complexes of rhodium (I)
P478volume43

Reverse relations

cites work (P2860)
Q44710650Effects of transition metal complexes on human lymphocyte blastogenesis in vitro
Q50207301Filamentous growth of Escherichia coli K12 elicited by dimeric, mixed-valence complexes of ruthenium
Q67018850Interaction of rhodium(III) with DNA
Q67478776Morphological effects of chromium and cobalt complexes on bacteria

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