Identification and sequence analysis of Escherichia coli purE and purK genes encoding 5'-phosphoribosyl-5-amino-4-imidazole carboxylase for de novo purine biosynthesis

Watanabe, Wakako; Sampei, G.; Aiba, Atsu; Mizobuchi, Kiyoshi

doi:10.1128/jb.171.1.198-204.1989

Cited by 60 publications

(39 citation statements)

References 37 publications

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“…Thus, it is generally anticipated that 70 promoters will initiate transcription with ATP or GTP 6 to 9 bp downstream of the Ϫ10 region. However, careful examination of start site selection has been limited to a relatively small number of promoters (e.g., see references 6, 18, 22, and 46) and deviations from this generalization have been observed (5,8,15,23,45,46,55). Thus, a thorough understanding of the processes surrounding start site selection is needed and will necessitate the inclusion of a larger set of promoters in such studies.…”

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Factors Affecting Start Site Selection at the Escherichia coli fis Promoter

Walker

Osuna

2002

J Bacteriol

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Transcription initiation with CTP is an uncommon feature among Escherichia coli 70 promoters. The fis promoter (fis P), which is subject to growth phase-dependent regulation, is among the few that predominantly initiate transcription with CTP. Mutations in this promoter that cause a switch from utilization of CTP to either ATP or GTP as the initiation nucleotide drastically alter its growth phase regulation pattern, suggesting that the choice of the primary initiating nucleotide can significantly affect its regulation. To better understand what factors influence this choice in fis P, we made use of a series of promoter mutations that altered the nucleotide or position used for initiation. Examination of these promoters indicates that start site selection is determined by a combination of factors that include preference for a nucleotide distance from the ؊10 region (8 > 7 > 9 Ͼ Ͼ 6 Ͼ Ͼ 10 > 11), initiation nucleotide preference (A ‫؍‬ G Ͼ Ͼ CTP > UTP), the DNA sequence surrounding the initiation region, the position of the ؊35 region, and changes in the intracellular nucleoside triphosphate pools. We describe the effects that each of these factors has on start site selection in the fis P and discuss the interplay between position and nucleotide preference in this important process.

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Factors Affecting Start Site Selection at the Escherichia coli fis Promoter

Walker

Osuna

2002

J Bacteriol

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“…This may indicate the functional significance of ORF 1 for growth under low CO2 conditions. Reference to the Swissprot data base revealed high homology between the amino acid sequences deduced for ORF 1 and for genes encoding AIR carboxylase in the eukaryotes Saccharomyces cerevisiae (ade2, 24) and Schizosaccharomyces pombe (ade6, 26), and subunit II of AIR carboxylase (purK) in the eubacteria Bacillus subtilis (4) and E. coli (28,29). The alignment presented in Figure 5 indicates 32 to 38% identity over the entire coding region of eubacterial purK.…”

Section: Resultsmentioning

confidence: 99%

Phenotypic Complementation of High CO₂-Requiring Mutants of the Cyanobacterium Synechococcus sp. Strain PCC 7942 by Inosine 5′-Monophosphate

Schwarz

Lieman-Hurwitz²,

Hassidim³

1992

Plant Physiol.

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The high C02-requiring mutants of Synechococcus PCC 7942, D4 and R14, were obtained by deletion or inactivation (respectively) of an open reading frame immediately downstream of rbc (the operon encoding the subunits of ribulose 1,5-bisphosphate carboxylase/oxygenase). These mutants exhibit photosynthetic characteristics similar to those of high C02-grown wild type, unlike other cyanobacterial high C02-requiring mutants, where the apparent photosynthetic affinity for inorganic carbon is approximately 2 orders of magnitude lower than that of the wild type. Sequence analysis and metabolic complementation of the mutants by inosine 5'-monophosphate identified this open reading frame as the cyanobacterial equivalent of purK, the eubacterial gene encoding subunit 11 of phosphoribosyl aminoimidazole carboxylase in the purine biosynthetic pathway. Exposure of high C02-grown Synechococcus to low CO2 conditions led to the induction of transcription of purK. It is suggested that the high C02-requiring phenotype of these mutants resulted from the defect in purine biosynthesis after exposure to low CO2. We also raise the possibility that the level of cellular purines is involved in the process of adaptation of cyanobacteria to low concentrations of CO2.as tools for the elucidation of the physiological and molecular basis of the Ci-concentrating mechanism. Most of these mutants exhibit an apparent photosynthetic affinity approximately 2 orders of magnitude lower than that of high C02-grown wild type (5, 7, 9, 10, 12, 15-17, 19, 22, 25). High C02-requiring mutants in which the photosynthetic characteristics are similar to those observed in wild-type cells grown under high C02 were isolated from Chlamydomonas reinhardtii (13) and Synechococcus sp. PCC 7942 (10). The mutant JR12 of the latter was obtained after transformation of the wild type with a construct designed to modify the genomic region of rbc. This mutant resulted from a rare recombination event in which the integration of the modified DNA into the genome occurred by single crossover, but part of the plasmid (1.7 kb) and about 2 kb downstream of rbc were deleted (10). The performance of this mutant indicated the significance of the genomic region downstream of rbc with regard to the ability of cyanobacteria to grow in the presence of low ambient C02 concentration. In this report, we present physiological and molecular characteristics of mutants obtained following specific modifications of this region. MATERIALS AND METHODSCyanobacteria can grow under a wide range of external Ci2 concentrations even though the Km(C02) of their Rubisco is some 20-fold higher than the concentration of dissolved C02 present in media at equilibrium with air (2). When transferred from high-to low-CO2 conditions, the cells undergo an adaptation process that includes the induction of a Ci-concentrating mechanism. As a consequence of this increase in the ability to accumulate Ci internally, the apparent photosynthetic affinity for extemal Ci is 10-to 20-fold higher in low than in high C...

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“…Гены cpmA у цианобактерий более консервативны, особенно в их C-концевом домене (Dvornyk, 2006). Этот домен в соответствующем белке имеет два гидрофобных мотива (Katayama et al, 1999) и проявляет слабую гомологию с AIR-карбоксилазой и NCAIR-мутазой -белках PurE, участвующих в метаболизме пуринов (Watanabe et al, 1989;Meyer et al, 1992). Интересно, что фотосинтезирующие альфа-протеобактерии и Chloroflexus, хотя и содержат гомологи kai (Dvornyk et al, 2003), но не имеют гомологов sasA либо cpmA.…”

Section: структура циркадных генов и их встречаемость в цианобактерияunclassified

Evolution of the circadian clock system in cyanobacteria: a genomic perspective

Dvornyk¹

2016

Algologia

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ВведениеЦиркадные ритмы, или так называемые «внутренние часы», возникли в клетках живых организмов как основной инструмент адаптации к смене дня и ночи, вызванной вращением нашей планеты вокруг своей оси (Pittendrigh, 1993;Dunlap et al., 2004). Этот механизм контролирует свое-временную экспрессию значительной части генов в геноме.

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Identification and sequence analysis of Escherichia coli purE and purK genes encoding 5'-phosphoribosyl-5-amino-4-imidazole carboxylase for de novo purine biosynthesis

Cited by 60 publications

References 37 publications

Factors Affecting Start Site Selection at the Escherichia coli fis Promoter

Factors Affecting Start Site Selection at the Escherichia coli fis Promoter

Phenotypic Complementation of High CO₂-Requiring Mutants of the Cyanobacterium Synechococcus sp. Strain PCC 7942 by Inosine 5′-Monophosphate

Evolution of the circadian clock system in cyanobacteria: a genomic perspective

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Identification and sequence analysis of Escherichia coli purE and purK genes encoding 5'-phosphoribosyl-5-amino-4-imidazole carboxylase for de novo purine biosynthesis

Cited by 60 publications

References 37 publications

Factors Affecting Start Site Selection at the Escherichia coli fis Promoter

Factors Affecting Start Site Selection at the Escherichia coli fis Promoter

Phenotypic Complementation of High CO2-Requiring Mutants of the Cyanobacterium Synechococcus sp. Strain PCC 7942 by Inosine 5′-Monophosphate

Evolution of the circadian clock system in cyanobacteria: a genomic perspective

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Phenotypic Complementation of High CO₂-Requiring Mutants of the Cyanobacterium Synechococcus sp. Strain PCC 7942 by Inosine 5′-Monophosphate