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Items: 1 to 20 of 228

1.

The ribR gene encodes a monofunctional riboflavin kinase which is involved in regulation of the Bacillus subtilis riboflavin operon.

Solovieva IM, Kreneva RA, Leak DJ, Perumov DA.

Microbiology. 1999 Jan;145 ( Pt 1):67-73.

PMID:
10206712
2.
4.

[Cloning and biochemical identification of the ribR gene in Bacillus subtilis].

Solov'eva IM, Kreneva RA, Polanuer BM, Kozlov IuI, Perumov DA.

Genetika. 1998 Jun;34(6):839-42. Russian.

PMID:
9719928
5.

[Primary structure and functional activity of the Bacillus subtilis ribC gene].

Gusarov II, Kreneva RA, Rybak KV, Podcherniaev DA, Iomantas IuV, Kolibaba LG, Polanuer BM, Kozlov IuI, Perumov DA.

Mol Biol (Mosk). 1997 Sep-Oct;31(5):820-5. Russian. No abstract available.

PMID:
9454067
7.

[Mutational analysis of the ribC gene of Bacillus subtilis].

Karelov DV, Kreneva RA, Érraĭs Lopes L, Perumov DA, Mironov AS.

Genetika. 2011 Jun;47(6):856-61. Russian.

PMID:
21866869
8.

RibR, a possible regulator of the Bacillus subtilis riboflavin biosynthetic operon, in vivo interacts with the 5'-untranslated leader of rib mRNA.

Higashitsuji Y, Angerer A, Berghaus S, Hobl B, Mack M.

FEMS Microbiol Lett. 2007 Sep;274(1):48-54. Epub 2007 Jun 21.

9.

Molecular cloning and characterisation of the ribC gene from Bacillus subtilis: a point mutation in ribC results in riboflavin overproduction.

Coquard D, Huecas M, Ott M, van Dijl JM, van Loon AP, Hohmann HP.

Mol Gen Genet. 1997 Mar 18;254(1):81-4.

PMID:
9108293
10.

Cloning of FAD synthetase gene from Corynebacterium ammoniagenes and its application to FAD and FMN production.

Hagihara T, Fujio T, Aisaka K.

Appl Microbiol Biotechnol. 1995 Jan;42(5):724-9.

PMID:
7765913
11.

[Analysis of the primary structure of the supplementary regulatory region of the riboflavin operon in Bacillus subtilis].

Gusarov II, Solov'eva IM, Iomantas IuA, Kreneva RA, Kozlov IuI, Perumov DA.

Genetika. 1997 Sep;33(9):1319-22. Russian.

PMID:
9445827
12.

[Cloning of ribR, an additional regulatory gene of the Bacillus subtilis riboflavin operon].

Solov'eva IM, Iomantas IuA, Kreneva RA, Kozlov IuI, Perumov DA.

Genetika. 1997 Jun;33(6):739-43. Russian.

PMID:
9289409
13.

[Study of the mechanism for regulating ribR gene activity in Bacillus subtilis].

Solov'eva IM, Kreneva RA, Erraĭs LL, Mironov AS, Perumov DA.

Genetika. 2004 May;40(5):716-20. Russian.

PMID:
15272571
14.

Flavoproteins are potential targets for the antibiotic roseoflavin in Escherichia coli.

Langer S, Hashimoto M, Hobl B, Mathes T, Mack M.

J Bacteriol. 2013 Sep;195(18):4037-45. doi: 10.1128/JB.00646-13. Epub 2013 Jul 8.

15.

[Multifunctional regulatory mutation in Bacillus subtilis flavinogenesis system].

Kreneva RA, Karelov DV, Korol'kova NV, Mironov AS, Perumov DA.

Genetika. 2009 Oct;45(10):1420-4. Russian.

PMID:
19947554
16.

Macrolide resistance gene mreA of Streptococcus agalactiae encodes a flavokinase.

Clarebout G, Villers C, Leclercq R.

Antimicrob Agents Chemother. 2001 Aug;45(8):2280-6.

17.

Structural insights into the synthesis of FMN in prokaryotic organisms.

Herguedas B, Lans I, Sebastián M, Hermoso JA, Martínez-Júlvez M, Medina M.

Acta Crystallogr D Biol Crystallogr. 2015 Dec 1;71(Pt 12):2526-42. doi: 10.1107/S1399004715019641. Epub 2015 Nov 27.

PMID:
26627660
18.

Truncated FAD synthetase for direct biocatalytic conversion of riboflavin and analogs to their corresponding flavin mononucleotides.

Iamurri SM, Daugherty AB, Edmondson DE, Lutz S.

Protein Eng Des Sel. 2013 Dec;26(12):791-5. doi: 10.1093/protein/gzt055. Epub 2013 Oct 29.

PMID:
24170887
19.
20.

A new Bacillus subtilis gene with homology to Escherichia coli prc.

Marasco R, Varcamonti M, Ricca E, Sacco M.

Gene. 1996 Dec 12;183(1-2):149-52.

PMID:
8996100

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