ADDITIONAL FIGURE LEGENDS S1. Kinetics of growth and substrate consumption for A. radioresistens S13 grown in batch cultures on acetate as the sole carbon.

Slides:

Advertisements

Similar presentations

Figure S1: Clustering analysis of the expression ratio of the sense and antisense pair of transcripts A B C D E F A B C D E F dT Random Sense : Antisense.

Advertisements

Supplemental Figure S1. Additional topological metrics of the GIL constructed from varied partitioning sizes.

NEGpre-221 pre-222pre-221/222 NEG DMSO 100 nM Fulvestrant for 72h Figure S1. Cell morphology of MCF7 cells after treatment with fulvestrant, with or without.

Fig. S1 HUVECs HDFNs HUVECs HDFNs Transwell CM Relative total length ** * control 200ng/ml400ng/ml TIMP-1 100ng/ml * ** GFP WT Mutant TIMP-1 TIMP-1 **

Figure. S1.1. Absorbance (A 580nm ) of crystal violet destained from Listeria monocytogenes biofilms formed by 18 serotype 1/2a strains and 18 serotype.

Situational Leadership: Raising The Performance Level of Others

Electronic Supplementary Information (ESI) for Mixed Addenda Polyoxometalate “Solutions” for Stationary Energy Storage Harry D. Pratt III and Travis M.

8-6 Compound Interest and Exponential Growth

Last Time 3/4/08. Increase (I) concentration increase slope intercept remains unchanged.

AB Figure S1 DNA content (% of control) **. MCF7:PF +E2 1 MCF7:PF +E2 2 MCF7:PF +E2 3 MCF7:PF +4OHT 1 MCF7:PF +4OHT 2 MCF7:PF +4OHT 3 MCF7:PF +ICI 1 MCF7:PF.

Compiler Construction LR(1) Rina Zviel-Girshin and Ohad Shacham School of Computer Science Tel-Aviv University.

ES=32 EF=34 LS=33 LF=35 ES=10 EF=16 LS=10 LF=16 ES=4+6=10 EF=10 LS=4

1 IV. Wastewater Treatment Technologies Topic IV. 8. Biological Processes of Wastewater Treatment: Fazes, Kinetics - Monod’s Equations Basic Fazes of Biological.

Microbial Growth Kinetics

Serial dilution and colony counting ● Serial dilution and colony counting – Also know as “viable cell counts” – Concentrated samples are diluted by serial.

E vac pn-junction  p-Si E V E C E F p  n-Si E V E C E F n.

Fermentation Kinetics of Yeast Growth and Production

Introduction to Fermentation

Cell Growth Kinetics Introduction

Microbial Growth Kinetics

Cells Growth in Continuous Culture Continuous culture: fresh nutrient medium is continually supplied to a well-stirred culture and products and cells are.

Summer Research 2012 Studying the metabolic pathway of Acidobacterium Capsulatum Sunny Ketchum, Pariss Trujillo, and Professor Les Sommerville.

Microbial Growth and Culture

Laboratory Experiment to Determine Batch Ethanol Production by S. cerevisiae Benjamin Reves May 11, 2005.

Bacterial Growth l Introduction –Population vs. Cellular Growth –Exponential vs. Arithmetic Growth –Bacterial Growth - Binary Fission.

An Empirical Investigation of Delayed Growth Response in Escherichia coli Nariman Ghoochan Jerald D. Hendrix Sean Ellermeyer Department of Biological and.

Microbial Nutrition and Growth

Bacterial growth:. Bacterial Growth Curve: The schematic growth curve shown below is associated with simplistic conditions known as a batch culture. It.

Aerobic Respiration. Anaerobic Respiration Chemolithotrophic respiration.

Binary fission of bacteria. E.coli genome size: 4.6 x 10 6 nucleotides Generation time at optimal conditions: 20min DNA replication rate: 1000nt/s ≈ 1.2.

Quantifying Growth Kinetics Unstructured model: assuming fixed cell composition. Applicable to balanced-growth condition: - exponential growth phase in.

FST 508 FERMENTED FOODS (3 units) By Dr. Olusegun Obadina.

ABE 572 Bioprocess Engineering Lecture 1: Cell Growth.

Development of an anaerobic, thermophilic and cellulolytic consortium to improve anaerobic digestion of lignocellulosic biomass. Kinet R., Rouneaux N.,

1 Introduction to Biological Processes ENVE Taxonomy Life could be divided into: –Prokaryotes (“pro care ee oats”, roughly “bacteria” that is,

THE MATH OF BACTERIA, LOGARITHMS By: Jamie log ue.

Cell Growth Kinetics -Introduction -Growth patterns and kinetics in batch culture - growth phases - effect of factors: oxygen supply - heat generation.

Energy and metabolism Biology 122 Genes and Development.

Microbial kinetics of growth and substrate utilization. Batch culture and Kinetics of Microbial growth in batch culture After inoculation the growth rate.

Bioconversion of raw glycerol into single cell oil rich in γ- linolenic acid S. Bellou, A. Makri, S. Fakas & G. Aggelis Unit of Microbiology, Division.

Microbial Kinetics and Substrate utilization in Fermentation

ANIMAL TISSUE CULTURE PRESENTATION

From: Expression of the α4 Integrin Subunit Gene Promoter Is Modulated by the Transcription Factor Pax-6 in Corneal Epithelial Cells Invest. Ophthalmol.

BACTERIAL GROWTH & REPRODUCTION

Introduction to Fermentation

Lecture 16 Chemical Reaction Engineering (CRE) is the field that studies the rates and mechanisms of chemical reactions and the design of the reactors.

Lecture 16 Chemical Reaction Engineering (CRE) is the field that studies the rates and mechanisms of chemical reactions and the design of the reactors.

Date of download: 11/2/2017 Copyright © ASME. All rights reserved.

MICROBIAL GROWTH KINETICS

Figure 1. SCH9 deletion and GCN4 overexpression modulate growth and metabolite production under winemaking conditions. (A) Cell viability in natural grape.

Config → Redox Couples…

MIC 303 INDUSTRIAL AND ENVIRONMENTAL MICROBIOLOGY

Supplementary material

Predicted growth, yield, and secretion.

النمو والعد البكتيري Microbial growth النمو الجرثومي.

Growth & Metabolism of Micro-organisms

Volume 7, Issue 10, Pages (October 2014)

Central carbon metabolic flux patterns under glucose‐limited and glucose‐excess conditions. Central carbon metabolic flux patterns under glucose‐limited.

Cg-OxyR controls catalase transcription, recovery from lag phase, survival to H2O2 stress, and H2O2 scavenging rate. Cg-OxyR controls catalase transcription,

Lecture 16 Chemical Reaction Engineering (CRE) is the field that studies the rates and mechanisms of chemical reactions and the design of the reactors.

Lokmangal Science & Entrepreneurship College, Wadala

A Two-Stage Batch Adsorption Optimised Design for Basic Blue 69 Dye Removal to Minimum Contact Time Yu-Ting Feng1#, Pei-Yu Lin1, Ming-Huang Wang1, I-Hsin.

Comparison of protein synthesis patterns of L

Volume 51, Issue 2, Pages (July 2013)

H-NS2-FLAG expression is upregulated in DMEM and M9 minimal medium and when cells enter the stationary growth phase. H-NS2-FLAG expression is upregulated.

E.coli K-12 MG1655 pathway 調節磷酸果糖激酶烯醇酶缺少 pyruvate decarboxylase

Metabolism and Survival

FtsZ‐limited division applies for various nutrient limitations

Lecture 16 Chemical Reaction Engineering (CRE) is the field that studies the rates and mechanisms of chemical reactions and the design of the reactors.

Presentation transcript:

ADDITIONAL FIGURE LEGENDS S1. Kinetics of growth and substrate consumption for A. radioresistens S13 grown in batch cultures on acetate as the sole carbon and energy source (aA cultures)., biomass,, acetate concentration,, pH,,,, q a. S2. Kinetics of growth and substrate consumption for A. radioresistens S13 grown in batch cultures on benzoate as the sole carbon and energy source (bB cultures)., biomass,, benzoate concentration,, pH,,,, q b. S3. Kinetics of growth and substrate consumption for A. radioresistens S13 grown in batch cultures on phenol as the sole carbon and energy source (pP cultures)., biomass,, phenol concentration,, pH,,,, q p. S4. Kinetics of growth and substrate consumption for acetate acclimatized A. radioresistens S13 grown in batch cultures on either benzoate (A) or phenol (B) as the sole carbon and energy sources (aB and aP cultures respectively). Arrows refer to samples harvested for transcript (T) or proteomic (P) analyses., biomass,, benzoate concentration,, phenol concentration. LAG, lag phase, EE, early exponential phase, ME, mid exponential phase, ES, early stationary phase, LS, late stationary phase.

S1 B A

S2 B A

S3 B A

LAG T EE T LS T,P B EE P ME T,P ES T,P LAG T EE1 T EE2 T, EE P ME T, P ES T,P A LS P S4