The marine cyanobacterium Synechococcus sp. WH7805 requires urease (urea amidohydrolase, EC 3.5.1.5) to utilize urea as a nitrogen source: molecular-genetic and biochemical analysis of the enzyme.
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Ecological genomics of marine picocyanobacteriaEvidence for the ubiquity of mixotrophic bacteria in the upper ocean: implications and consequencesComparative genomics analysis of NtcA regulons in cyanobacteria: regulation of nitrogen assimilation and its coupling to photosynthesisMetals in cyanobacteria: analysis of the copper, nickel, cobalt and arsenic homeostasis mechanismsThe unique biogeochemical signature of the marine diazotroph trichodesmiumOcean urea fertilization for carbon credits poses high ecological risksTemporal variation of Synechococcus clades at a coastal Pacific Ocean monitoring site.Molecular and biochemical characterization of urease and survival of Yersinia enterocolitica biovar 1A in acidic pH in vitro.Long term seasonal dynamics of synechococcus population structure in the gulf of aqaba, northern red sea.Swimming marine Synechococcus strains with widely different photosynthetic pigment ratios form a monophyletic groupEcological aspects of ntcA gene expression and its use as an indicator of the nitrogen status of marine Synechococcus spp.Resolution of Prochlorococcus and Synechococcus ecotypes by using 16S-23S ribosomal DNA internal transcribed spacer sequences.Nitrogen cycling in the ocean: new perspectives on processes and paradigms.Dissolved organic nitrogen hydrolysis rates in axenic cultures of Aureococcus anophagefferens (Pelagophyceae): comparison with heterotrophic bacteriaNitrogen control in cyanobacteria.Abundance and distribution of Synechococcus spp. and cyanophages in the Chesapeake Bay.Global transcriptional responses of the toxic cyanobacterium, Microcystis aeruginosa, to nitrogen stress, phosphorus stress, and growth on organic matter.Linking seasonal inorganic nitrogen shift to the dynamics of microbial communities in the Chesapeake Bay.Parent material and vegetation influence soil microbial community structure following 30-years of rock weathering and pedogenesis.Influence of freshwater discharge on the microbial degradation processes of dissolved organic nitrogen in a subtropical estuary.Light-stimulated bacterial production and amino acid assimilation by cyanobacteria and other microbes in the North Atlantic oceanGenetic identification of a high-affinity Ni transporter and the transcriptional response to Ni deprivation in Synechococcus sp. strain WH8102Ni uptake and limitation in marine Synechococcus strainsEffects of low temperature on tropical and temperate isolates of marine SynechococcusHigh rate of uptake of organic nitrogen compounds by Prochlorococcus cyanobacteria as a key to their dominance in oligotrophic oceanic waters.Clade-specific 16S ribosomal DNA oligonucleotides reveal the predominance of a single marine Synechococcus clade throughout a stratified water column in the Red Sea.DIFFERENCES IN GROWTH AND PHYSIOLOGY OF MARINE SYNECHOCOCCUS (CYANOBACTERIA) ON NITRATE VERSUS AMMONIUM ARE NOT DETERMINED SOLELY BY NITROGEN SOURCE REDOX STATE(1).Streamlined regulation and gene loss as adaptive mechanisms in Prochlorococcus for optimized nitrogen utilization in oligotrophic environments.Physiological Studies of Glutamine Synthetases I and III from Synechococcus sp. WH7803 Reveal Differential Regulation.An ABC-type, high-affinity urea permease identified in cyanobacteria.A suppression subtractive hybridization approach reveals niche-specific genes that may be involved in predator avoidance in marine Synechococcus isolates.Influence of Glycine and Arginine on Cylindrospermopsin Production and aoa Gene Expression in Aphanizomenon ovalisporum.Genetic and ecophysiological traits of Synechococcus strains isolated from coastal and open ocean waters of the Arabian Sea.Overproduction of the cyanobacterial hydrogenase and selection of a mutant thriving on urea, as a possible step towards the future production of hydrogen coupled with water treatment.
P2860
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P2860
The marine cyanobacterium Synechococcus sp. WH7805 requires urease (urea amidohydrolase, EC 3.5.1.5) to utilize urea as a nitrogen source: molecular-genetic and biochemical analysis of the enzyme.
description
1999 nî lūn-bûn
@nan
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
1999年论文
@zh
1999年论文
@zh-cn
name
The marine cyanobacterium Syne ...... emical analysis of the enzyme.
@en
type
label
The marine cyanobacterium Syne ...... emical analysis of the enzyme.
@en
prefLabel
The marine cyanobacterium Syne ...... emical analysis of the enzyme.
@en
P2093
P1433
P1476
The marine cyanobacterium Syne ...... emical analysis of the enzyme.
@en
P2093
Brahamsha B
Collier JL
P304
P356
10.1099/13500872-145-2-447
P478
145 ( Pt 2)
P577
1999-02-01T00:00:00Z