The Burst Size Distribution in the Growth of Bacterial Viruses (Bacteriophages).
about
Connecting variability in global transcription rate to mitochondrial variabilityTradeoffs in bacteriophage life historiesDetermination of cell fate selection during phage lambda infection.Using measures of single-cell physiology and physiological state to understand organismic agingGrowth of an RNA virus in single cells reveals a broad fitness distributionDetailed simulations of cell biology with Smoldyn 2.1HIV promoter integration site primarily modulates transcriptional burst size rather than frequencyStochastic holin expression can account for lysis time variation in the bacteriophage λ.Emergence of variability in isogenic Escherichia coli populations infected by a filamentous virus.Statistical mechanical model of coupled transcription from multiple promoters due to transcription factor titration.Linkage Among Genes Controlling Inhibition of Lysis in a Bacterial Virus.Development of a bacteriophage phage replication assay for diagnosis of pulmonary tuberculosis.Cross Reactivation of Genetic Loci of T2 Bacteriophage after Decay of Incorporated Radioactive Phosphorus.Energetic cost of building a virus.Model for bacteriophage T4 development in Escherichia coli.Stability and instability in the lysogenic state of phage lambda.Hierarchic stochastic modelling applied to intracellular Ca(2+) signalsPopulation dynamics of a Salmonella lytic phage and its host: implications of the host bacterial growth rate in modellingResistance to ultraviolet light as an index to the reproduction of bacteriophage.Effect of Intrinsic Noise on the Phenotype of Cell Populations Featuring Solution Multiplicity: An Artificial lac Operon Network Paradigm.Kinetics of virus production from single cellsSelection and Characterization of Phage-Resistant Mutant Strains of Listeria monocytogenes Reveal Host Genes Linked to Phage Adsorption.From single-cell genetic architecture to cell population dynamics: quantitatively decomposing the effects of different population heterogeneity sources for a genetic network with positive feedback architecture.Coinfection rates in Φ6 bacteriophage are enhanced by virus-induced changes in host cells.Transduction by bacteriophage T1.Transformation of a Bacillus subtilis L-form with bacteriophage deoxyribonucleic acid.Single-cell analysis and stochastic modelling unveil large cell-to-cell variability in influenza A virus infection.Flagellar determinants of bacterial sensitivity to chi-phage.Genetically Determined Variation in Lysis Time Variance in the Bacteriophage φX174An Analysis of the Action of Proflavine on Bacteriophage Growth.Stochastic gene expression as a molecular switch for viral latency.Stochastic kinetic modeling of vesicular stomatitis virus intracellular growthQuantitative profiling of innate immune activation by viral infection in single cells.Electron-microscopical studies on the mechanism of lysis and the multiplication of bacteriophage of Bact. coli.The Isolation of Escherichia coli Phage by Means of Cationic Detergents.Ultraviolet Irradiation of Bacteriophage During Intracellular Growth.Serological studies of a host range mutant of a lactic streptococcal bacteriophage.Characterization of two polyvalent phages infecting Enterobacteriaceae.Interference Between Bacterial Viruses: III. The Mutual Exclusion Effect and the Depressor Effect.Robust Synthetic Circuits for Two-Dimensional Control of Gene Expression in Yeast
P2860
Q21092717-61E357C1-7DDB-4C19-B4FD-3E5B435ECC78Q22061769-F90DC13E-9FCE-41B0-8AD5-12D8FE2CDFE2Q24644275-828F6C68-2B78-48AA-AAD8-9A7CB2B75828Q26776271-04FE87E0-284F-4828-8145-AA5CB60A6D43Q27488296-9CAE8A76-FFC5-4861-A419-73301CEC19A6Q28473184-37FB0DD4-755B-4537-89B4-E5D972766747Q28475647-2337F9B5-1A81-445D-BA4F-26C7FCA6E4D7Q30577378-6FD6B9EF-F5A4-4F45-B059-0AFACAAF0398Q33646760-0945FA2D-A3D3-40EC-A761-95A48C76E7E3Q33707494-33A64105-A001-432F-8AF9-7032EBF39984Q33709413-30880EF7-3C64-412B-8BF1-F20B4884F5E0Q33712762-0F639867-789C-4D86-A0DF-62DA9D04F9C7Q33714205-C228A93D-E191-41E3-9209-4C22106BDE5DQ33782563-E43DA41B-C2D0-4B0B-A14F-3621E8354092Q33991436-5BBF17CB-EA48-47FD-A598-97E09F54A9D5Q34140096-D3BAA0DD-B0BF-4E94-86C3-8BB50671E81AQ34540098-31813C45-8869-4085-A16B-0F3DC369F711Q35211072-6980051F-4EC5-4BA1-8D8B-522511286AA2Q35222617-EB5E3D31-5AF9-4AF0-BE8F-5D57B183487DQ35694371-8AF2E9EC-04A9-4C32-986D-64BCA5E20D42Q35713464-C10344C9-FC40-4F0E-9DD4-C9DD700DFAA0Q35764037-1FF34371-6CEA-45F2-9280-CEEEC541F580Q35812298-BF43D459-FE08-41DD-9B17-18252E2358A2Q35960790-EDF9606D-40E7-46F5-A9B1-994547F13BD9Q35978805-3F371F39-648B-47AC-A638-EA6EA1AB6BFFQ36321699-7211B3A5-8E81-417D-A67E-03FF2D113F6EQ36358181-03DB7746-E88A-4EC4-B36A-5F008F617338Q36437803-8892752A-5D6E-404B-AFBB-74182DA3D0FFQ36780918-D3C04738-6F97-4C3A-8AC2-D1D8C0E8E76BQ37532730-23B185C9-45D1-41E8-9AF7-AB7CE50B062CQ37549111-2E638C52-5F21-4BF9-BFCC-47257DE1B128Q38355116-D501B05C-A43A-42D3-A613-D22087C32197Q38613112-23E862DF-8635-4556-B156-4B32DCEEAA35Q39963907-826A1627-9492-4341-86DA-51417A6755D7Q40033328-9BD45DB1-7AD1-42AD-8F3E-911565A6E429Q40036502-FC4D673D-A617-46F6-908C-476140DA86B1Q40076833-776BA259-30F3-4C2A-8DEB-FB55108C2FC9Q40370546-A65D848D-036D-4FD7-84EF-C060065F285FQ40699694-A9C1FCDF-0A7C-4B6D-8FC4-A56E9EF37289Q40997006-238C1A56-C85F-427B-8203-BA4427CFC34B
P2860
The Burst Size Distribution in the Growth of Bacterial Viruses (Bacteriophages).
description
1945 nî lūn-bûn
@nan
1945年の論文
@ja
1945年論文
@yue
1945年論文
@zh-hant
1945年論文
@zh-hk
1945年論文
@zh-mo
1945年論文
@zh-tw
1945年论文
@wuu
1945年论文
@zh
1945年论文
@zh-cn
name
The Burst Size Distribution in the Growth of Bacterial Viruses (Bacteriophages).
@en
type
label
The Burst Size Distribution in the Growth of Bacterial Viruses (Bacteriophages).
@en
prefLabel
The Burst Size Distribution in the Growth of Bacterial Viruses (Bacteriophages).
@en
P1476
The Burst Size Distribution in the Growth of Bacterial Viruses (Bacteriophages)
@en
P304
P50
P577
1945-08-01T00:00:00Z