標(biāo)題: Titlebook: Cellular Ecophysiology of Microbe: Hydrocarbon and Lipid Interactions; Tino Krell Living reference work 2020Latest edition [打印本頁(yè)] 作者: False-Negative 時(shí)間: 2025-3-21 16:52
書目名稱Cellular Ecophysiology of Microbe: Hydrocarbon and Lipid Interactions影響因子(影響力)
書目名稱Cellular Ecophysiology of Microbe: Hydrocarbon and Lipid Interactions影響因子(影響力)學(xué)科排名
書目名稱Cellular Ecophysiology of Microbe: Hydrocarbon and Lipid Interactions網(wǎng)絡(luò)公開度
書目名稱Cellular Ecophysiology of Microbe: Hydrocarbon and Lipid Interactions網(wǎng)絡(luò)公開度學(xué)科排名
書目名稱Cellular Ecophysiology of Microbe: Hydrocarbon and Lipid Interactions被引頻次
書目名稱Cellular Ecophysiology of Microbe: Hydrocarbon and Lipid Interactions被引頻次學(xué)科排名
書目名稱Cellular Ecophysiology of Microbe: Hydrocarbon and Lipid Interactions年度引用
書目名稱Cellular Ecophysiology of Microbe: Hydrocarbon and Lipid Interactions年度引用學(xué)科排名
書目名稱Cellular Ecophysiology of Microbe: Hydrocarbon and Lipid Interactions讀者反饋
書目名稱Cellular Ecophysiology of Microbe: Hydrocarbon and Lipid Interactions讀者反饋學(xué)科排名
作者: 無(wú)目標(biāo) 時(shí)間: 2025-3-21 20:18
https://doi.org/10.1007/978-3-322-97738-0ved in a series of cellular processes, some of them vital for mammals. Thus, DNA methylation has a role in the regulation of chromatin structure and promoter activity. It may silence the promoters of imprinted genes showing monoallelic expression as well as the promoters of transposons, and contribu作者: Redundant 時(shí)間: 2025-3-22 02:52
,Organisationsver?nderung für Mobilisierung,nse of energy production (Fig. 1). During fast growth in glucose or tryptone-based medium, . and several other organisms excrete acetate to regenerate NAD . and to recycle coenzyme A. The acetate acidifies the medium and can repress the production of both native and heterologous proteins. Upon deple作者: obnoxious 時(shí)間: 2025-3-22 06:10 作者: MOTTO 時(shí)間: 2025-3-22 09:10
https://doi.org/10.1007/978-3-322-97757-1ule that leads to changes in protein-protein and protein-nucleic acid interactions. A relevant example for nucleic acid modification is the methylation, while alkylation, lipidation, acetylation, and ubiquitination are frequent hydrophobic modifications of proteins.作者: Torrid 時(shí)間: 2025-3-22 14:01
Unternehmensführung & Controlling oil to sink. Accumulation is thought to be by partitioning into the membrane lipid portion of the cell envelope for partial oxidation and trapping into the interior. One consequence of this “vectorial partitioning” is the liberation of partly oxidized hydrocarbon degradation products into the envir作者: Torrid 時(shí)間: 2025-3-22 17:42
,Kritische Erfolgsfaktoren und Me?gr??en,ding suggests that the oil fly bacteria have an active efflux pump for aromatic hydrocarbons, due to the constant selective pressure of La Brea’s solvent-rich environment. We suggest that the oil fly bacteria and their genes for solvent tolerance may provide a microbial reservoir for antibiotic resi作者: Verify 時(shí)間: 2025-3-23 00:01 作者: larder 時(shí)間: 2025-3-23 03:19 作者: Ccu106 時(shí)間: 2025-3-23 07:35
, Isomerase of Unsaturated Fatty Acids: An Immediate Bacterial Adaptive Mechanism to Cope with Emer typical of cytochrome .-type proteins is present in the predicted Cti polypeptide indicating a reaction mechanism that renounces temporary saturation of the double bond. Due to its direct correlation with toxicity, .isomerization is a potential biomarker for recording solvent stress or changes of o作者: Camouflage 時(shí)間: 2025-3-23 10:35
DNA Methylation in Eukaryotes: Regulation and Function,ved in a series of cellular processes, some of them vital for mammals. Thus, DNA methylation has a role in the regulation of chromatin structure and promoter activity. It may silence the promoters of imprinted genes showing monoallelic expression as well as the promoters of transposons, and contribu作者: Conquest 時(shí)間: 2025-3-23 17:05 作者: GEST 時(shí)間: 2025-3-23 21:23
Genetics of Sensing, Accessing, and Exploiting Hydrocarbons,lated. Microorganisms which mount the most appropriate physiological adaptation are then able to proliferate in the changing environment. Here, we?give an overview of the bacterial chemotactic responses towards hydrocarbons and the adaptive regulation of catabolic pathways responsible for the degrad作者: JUST 時(shí)間: 2025-3-23 22:32
Hydrophobic Modifications of Biomolecules: An Introduction,ule that leads to changes in protein-protein and protein-nucleic acid interactions. A relevant example for nucleic acid modification is the methylation, while alkylation, lipidation, acetylation, and ubiquitination are frequent hydrophobic modifications of proteins.作者: breadth 時(shí)間: 2025-3-24 05:03 作者: 培養(yǎng) 時(shí)間: 2025-3-24 09:45
Microbiology of Oil Fly Larvae,ding suggests that the oil fly bacteria have an active efflux pump for aromatic hydrocarbons, due to the constant selective pressure of La Brea’s solvent-rich environment. We suggest that the oil fly bacteria and their genes for solvent tolerance may provide a microbial reservoir for antibiotic resi作者: UNT 時(shí)間: 2025-3-24 11:48
he diverse and multifaceted aspects of these interactions, the microbial players, and the physiological mechanisms and adaptive strategies characteristic of themicrobial lifestyle that plays out at hydrophobic material: aqueous liquid interfaces.978-3-319-20796-4作者: 缺陷 時(shí)間: 2025-3-24 16:52 作者: DEMN 時(shí)間: 2025-3-24 20:35 作者: 自制 時(shí)間: 2025-3-24 23:49
https://doi.org/10.1007/978-3-322-97680-2ts to regulate diverse processes in different bacteria, to include the formation of biofilms, cellular differentiation, synthesis of antibiotics and other secondary metabolites, and the production of virulence factors in pathogens. Many bacteria use amphiphilic lipids of different chemical classes a作者: graphy 時(shí)間: 2025-3-25 05:25 作者: deviate 時(shí)間: 2025-3-25 09:03
https://doi.org/10.1007/978-3-322-97701-4cular weight glycolipids and lipopeptides produced by bacteria such as ., and . in addition to other glycolipids synthesized by eukaryotic organisms such as ., ., and . spp. The applications of microbial surfactants utilizing their properties for accessing substrates and in microemulsion technology 作者: parsimony 時(shí)間: 2025-3-25 13:08
https://doi.org/10.1007/978-3-322-97701-4the metabolic potential of microorganisms and their survival strategies to cope with their deleterious effects. Biofilm formation is acknowledged as one of the main colonization and persistence mechanisms of bacteria in the environment, providing protection against stress. Many bioremediation system作者: Aromatic 時(shí)間: 2025-3-25 18:30
https://doi.org/10.1007/978-3-322-97721-2 fate or metabolism of labeled cells in the microbial community or can be indirectly inferred from the screening of mutant libraries for key genetic determinants. Transcriptome, proteome, and metabolome data are collected from homogeneous bacterial populations that are exposed to hydrocarbons under 作者: NIP 時(shí)間: 2025-3-25 23:33
https://doi.org/10.1007/978-3-322-97721-2 carbon and energy for many bacterial species, have been shown to be chemoattractants for specific organisms. While much is known about catabolic pathways for the degradation of hydrocarbons and related compounds, less is known about the molecular basis for chemotactic responses to these volatile an作者: conscribe 時(shí)間: 2025-3-26 03:45
Unternehmensführung & Controllingmpounds is the isomerization of .- to .-unsaturated membrane fatty acids. The degree of isomerization obviously depends on the toxicity and the concentration of membrane-affecting agents. Synthesis of .fatty acids comes about by direct isomerization of the respective .-configuration of the double bo作者: Detain 時(shí)間: 2025-3-26 05:57
https://doi.org/10.1007/978-3-322-97738-0nzymatic machinery generating 5-methylcytosine (5mC) that functions as an epigenetic mark in mammalian cells, and outline the active and passive mechanisms that can remove this reversible modification of DNA. We briefly introduce the characteristics of “maintenance” and “de novo” DNA-(cytosine-C5)-m作者: jarring 時(shí)間: 2025-3-26 09:20 作者: 臆斷 時(shí)間: 2025-3-26 13:33
https://doi.org/10.1007/978-3-322-97740-3of three components. Two components are transmembrane proteins located in the inner and outer membrane whereas the third one spans the periplasm connecting the other two subunits. The large part of information available on RND pumps is related to their capacity to extrude antibiotics. Structural dat作者: 道學(xué)氣 時(shí)間: 2025-3-26 20:34 作者: 謙卑 時(shí)間: 2025-3-26 23:37
,Organisationsver?nderung für Mobilisierung,hat generates biomass, energy, and intermediates for macromolecules. Its importance is not limited to biosynthetic pathways: the oxidation of carbohydrates (via pyruvate), fatty acids (by the β-oxidation cycle), or aromatics (by various pathways) all produce acetyl-CoA as an end point of catabolism.作者: EXULT 時(shí)間: 2025-3-27 03:25 作者: 偏離 時(shí)間: 2025-3-27 07:16
https://doi.org/10.1007/978-3-322-97757-1y coding elements of their sequences. Some of the bases in the DNA and RNA and the majority of the amino acids in the protein can incorporate new functional groups through a covalent addition. By means of these modifications, the genetically encoded functions of active proteins or the expression pat作者: Interstellar 時(shí)間: 2025-3-27 11:42
Unternehmensführung & Controlling along with other classes of organics. Concentrations are small, in the μg L. range and generally below detection. The organisms are sometimes mischaracterized as high-affinity organisms due to small Michaelis constants, and measured affinities for these and other substrates of oligobacteria are muc作者: bronchodilator 時(shí)間: 2025-3-27 16:43 作者: tenuous 時(shí)間: 2025-3-27 20:31
https://doi.org/10.1007/978-3-322-97781-6id bilayer that provides an appropriate matrix for membrane proteins involved in many different cellular processes. Membrane lipid composition can change in response to different environmental challenges such as the presence of toxic compounds (e.g., aromatic hydrocarbons). The changes in membrane f作者: 失望昨天 時(shí)間: 2025-3-28 01:17
https://doi.org/10.1007/978-3-322-97781-6 it occurs in many biological processes of prokaryotes and eukaryotes. The most common methylations occur on the amino groups of lysine and arginine side chains providing them with hydrophobic and steric properties that affect the way they behave and recognize other proteins and nucleic acids. Methy作者: Indelible 時(shí)間: 2025-3-28 03:33 作者: 不怕任性 時(shí)間: 2025-3-28 10:12 作者: affinity 時(shí)間: 2025-3-28 12:02 作者: padding 時(shí)間: 2025-3-28 18:36
https://doi.org/10.1007/978-3-322-97721-2 carbon and energy for many bacterial species, have been shown to be chemoattractants for specific organisms. While much is known about catabolic pathways for the degradation of hydrocarbons and related compounds, less is known about the molecular basis for chemotactic responses to these volatile and toxic chemicals.作者: forecast 時(shí)間: 2025-3-28 22:21
https://doi.org/10.1007/978-3-322-97802-8carbon-degrading microorganisms to physically interact with these phases. This has various implications for the physicochemical characteristics of these microbes, their modes of hydrocarbon uptake, and their behavioral and physiological strategies aimed at promoting such interactions.作者: 悅耳 時(shí)間: 2025-3-29 00:30 作者: IDEAS 時(shí)間: 2025-3-29 06:31
Chemotaxis to Hydrocarbons, carbon and energy for many bacterial species, have been shown to be chemoattractants for specific organisms. While much is known about catabolic pathways for the degradation of hydrocarbons and related compounds, less is known about the molecular basis for chemotactic responses to these volatile and toxic chemicals.作者: Genome 時(shí)間: 2025-3-29 09:28
Microorganism-Hydrophobic Compound Interactions,carbon-degrading microorganisms to physically interact with these phases. This has various implications for the physicochemical characteristics of these microbes, their modes of hydrocarbon uptake, and their behavioral and physiological strategies aimed at promoting such interactions.作者: 伙伴 時(shí)間: 2025-3-29 14:24
Amphiphilic Lipids, Signaling Molecules, and Quorum Sensing,ts to regulate diverse processes in different bacteria, to include the formation of biofilms, cellular differentiation, synthesis of antibiotics and other secondary metabolites, and the production of virulence factors in pathogens. Many bacteria use amphiphilic lipids of different chemical classes a作者: Pudendal-Nerve 時(shí)間: 2025-3-29 15:55
Assimilation of Hydrocarbons and Lipids by Means of Biofilm Formation,drocarbons and natural components of the organic matter such as lipids. It is now well known that many bacterial strains use HOCs as carbon and energy sources for growth and form biofilms at the HOCs-water interface that are referred to as oleolytic biofilms. The formation of these biofilms appears 作者: llibretto 時(shí)間: 2025-3-29 20:00
Biodiversity of Biosurfactants and Roles in Enhancing the (Bio)availability of Hydrophobic Substratcular weight glycolipids and lipopeptides produced by bacteria such as ., and . in addition to other glycolipids synthesized by eukaryotic organisms such as ., ., and . spp. The applications of microbial surfactants utilizing their properties for accessing substrates and in microemulsion technology 作者: 不整齊 時(shí)間: 2025-3-30 01:44
Biofilm Stress Responses Associated to Aromatic Hydrocarbons,the metabolic potential of microorganisms and their survival strategies to cope with their deleterious effects. Biofilm formation is acknowledged as one of the main colonization and persistence mechanisms of bacteria in the environment, providing protection against stress. Many bioremediation system作者: 含沙射影 時(shí)間: 2025-3-30 06:05
Bioinformatic, Molecular, and Genetic Tools for Exploring Genome-Wide Responses to Hydrocarbons, fate or metabolism of labeled cells in the microbial community or can be indirectly inferred from the screening of mutant libraries for key genetic determinants. Transcriptome, proteome, and metabolome data are collected from homogeneous bacterial populations that are exposed to hydrocarbons under 作者: oncologist 時(shí)間: 2025-3-30 09:16
Chemotaxis to Hydrocarbons, carbon and energy for many bacterial species, have been shown to be chemoattractants for specific organisms. While much is known about catabolic pathways for the degradation of hydrocarbons and related compounds, less is known about the molecular basis for chemotactic responses to these volatile an作者: 半球 時(shí)間: 2025-3-30 14:46
, Isomerase of Unsaturated Fatty Acids: An Immediate Bacterial Adaptive Mechanism to Cope with Emermpounds is the isomerization of .- to .-unsaturated membrane fatty acids. The degree of isomerization obviously depends on the toxicity and the concentration of membrane-affecting agents. Synthesis of .fatty acids comes about by direct isomerization of the respective .-configuration of the double bo作者: prick-test 時(shí)間: 2025-3-30 18:41 作者: 客觀 時(shí)間: 2025-3-30 22:43
DNA Methylation in Prokaryotes: Regulation and Function,eukaryotes, the most important methylation in bacteria takes place on adenines (in position N6). The enzymes responsible for DNA methylation are often associated with restriction enzymes acting as a defense mechanism against foreign DNA (Restriction-Modification or R-M system). Other methyltransfera作者: Harbor 時(shí)間: 2025-3-31 04:40
Extrusion Pumps for Hydrocarbons: An Efficient Evolutionary Strategy to Confer Resistance to Hydrocof three components. Two components are transmembrane proteins located in the inner and outer membrane whereas the third one spans the periplasm connecting the other two subunits. The large part of information available on RND pumps is related to their capacity to extrude antibiotics. Structural dat作者: Lime石灰 時(shí)間: 2025-3-31 06:33 作者: 拋棄的貨物 時(shí)間: 2025-3-31 12:15 作者: Insul島 時(shí)間: 2025-3-31 15:38
Genetics of Sensing, Accessing, and Exploiting Hydrocarbons,cules. In order to achieve this, bacteria have developed specific sensor proteins and adaptive mechanisms. In the presence of hydrocarbons, the bacterial adaptive response is modulated at the transcriptional and post-transcriptional levels by one- and two-component regulatory systems, global regulat作者: 讓空氣進(jìn)入 時(shí)間: 2025-3-31 21:03
Hydrophobic Modifications of Biomolecules: An Introduction,y coding elements of their sequences. Some of the bases in the DNA and RNA and the majority of the amino acids in the protein can incorporate new functional groups through a covalent addition. By means of these modifications, the genetically encoded functions of active proteins or the expression pat作者: cleaver 時(shí)間: 2025-3-31 22:10
Kinetics and Physiology at Vanishingly Small Substrate Concentrations, along with other classes of organics. Concentrations are small, in the μg L. range and generally below detection. The organisms are sometimes mischaracterized as high-affinity organisms due to small Michaelis constants, and measured affinities for these and other substrates of oligobacteria are muc作者: aplomb 時(shí)間: 2025-4-1 03:08 作者: bifurcate 時(shí)間: 2025-4-1 07:05 作者: 船員 時(shí)間: 2025-4-1 13:47
Methylation of Proteins: Biochemistry and Functional Consequences, it occurs in many biological processes of prokaryotes and eukaryotes. The most common methylations occur on the amino groups of lysine and arginine side chains providing them with hydrophobic and steric properties that affect the way they behave and recognize other proteins and nucleic acids. Methy作者: GUILE 時(shí)間: 2025-4-1 15:10 作者: excrete 時(shí)間: 2025-4-1 21:35
Microorganism-Hydrophobic Compound Interactions,carbon-degrading microorganisms to physically interact with these phases. This has various implications for the physicochemical characteristics of these microbes, their modes of hydrocarbon uptake, and their behavioral and physiological strategies aimed at promoting such interactions.作者: 異教徒 時(shí)間: 2025-4-2 00:51
