growth Protocols

Category: Cell Biology and Cell Culture: Cell Cycle Protocols: G Phase Protocols

This protocol provides a method for synchronizing cells at the G1/S border using a double treatment of thymidine, which, in excess, is an inhibitor of DNA synthesis. Cells are treated once with excess thymidine to accumulate the majority of them at G1/S; however, some cells will have stopped growth within the S phase. - [Read G1/S Phase Synchronization using Double Thymidine Synchronization Protocols]

Category: Cell Biology and Cell Culture: Cell Cycle Protocols: G Phase Protocols

This protocol uses the plant amino acid mimosine as a G1/S synchronizing agent. Cells are first treated with excess thymidine to accumulate the majority of them at G1/S; however, some cells will have stopped growth within the S phase. Thymidine is then removed to allow all the cells to proceed completely through the S phase. Mimosine is then added to arrest the cells at the G1/S border. When mimosine is removed, cells will begin to enter S phase within about 1 hour. - [Read G1/S Phase Synchronization Using Mimosine Arrest Protocol]

Category: Cell Biology and Cell Culture: Cell Cycle Protocols: S Phase Protocols

Protocol uses the plant amino acid mimosine as a G1/S synchronizing agent. Cells are first treated with excess thymidine to accumulate the majority of them at G1/S; however, some cells will have stopped growth within the S phase. Thymidine is then removed to allow all the cells to proceed completely through the S phase. Mimosine is then added to arrest the cells at the G1/S border. When mimosine is removed, cells will begin to enter S phase within about 1 hour. - [Read G1/S Phase Synchronization Using Mimosine Arrest Protocol]

Category: Cell Biology and Cell Culture: Flow Cytometry Protocols: Cell Cycle Analysis Protocols

This protocol uses the plant amino acid mimosine as a G1/S synchronizing agent. Cells are first treated with excess thymidine to accumulate the majority of them at G1/S; however, some cells will have stopped growth within the S phase. Thymidine is then removed to allow all the cells to proceed completely through the S phase. Mimosine is then added to arrest the cells at the G1/S border. When mimosine is removed, cells will begin to enter S phase within about 1 hour. - [Read G1/S Phase Synchronization Using Mimosine Arrest Protocol]

Category: Primary Cell Isolation and Culture Protocols: Mammalian Cell Culture Protocols

Covers general things you need to know to get started in cell culture work. Includes: Sterile Technique; Growth of Your Cell Culture; - [Read General Cell Culture]

Category: Primary Cell Isolation and Culture Protocols: Mammalian Cell Culture Protocols

Generation of a growth curve can be useful in evaluating the growth characteristics of a cell line. From a growth curve, the lag time, population doubling time, and saturation density can be determined. - [Read Generation of Growth Curve Protocol]

Category: Laboratory Model Organisms Protocols

Protocol describes the growth and concentration of the alga Chlorogonium elongatum as a food source for culturing freshwater hypotrichs. Most freshwater hypotrichs (including Oxytricha nova, O. fallax, and O. trifallax; Euplotes aediculatus and E. eurystomous; and Stylonychia lemnae) can be grown to high density with Chlorogonium as the food organism. A similar regimen can be used to prepare other food sources such as Tetrahymena or bacteria (e.g., Aerobacter aerogenes). - [Read Growth and Concentration of Chlorogonium for Culturing Freshwater Hypotrichs Protocol]

Category: Viral Culture and Isolation Protocols: Viral Culture Protocols

There are essentially three parts to this protocol: 1. growth of at least 5x10e8 pfu phage to provide an inoculum growth of a larger liquid lysate that will produce about 5x10e12 pfu; 2. concentration and purification of the phage, and; 3. DNA preparation. - [Read Growth and Purification of 25-100 ug Lambda Clone DNA Protocol]

Category: Primary Cell Isolation and Culture Protocols: Mammalian Cell Culture Protocols

The procedures involve the isolation and growth of primary cell cultures from rodent and human tissue as well as the use of viral vectors for the introduction and expression of mammalian genes in cells in culture and in live rodents. - [Read Growth of Primary Cell Culture and Viral Vector Handling Protocols]

Category: Yeast Protocols: Yeast Genetics Protocols: YACs Protocols

Protocol describes methods for isolation of DNA from a strain of S. cerevisiae carrying a recombinant YAC. Because the linear YAC DNAs are sensitive to shearing forces, pipettes with wide-bore tips should be used to transfer DNAs. The method is suitable for preparing DNA that will be used for agarose gel electrophoresis, Southern blotting, subcloning, genomic library construction, PCR, or other methods that do not require intact high-molecular-weight DNA. - [Read Growth of S. cerevisiae and Preparation of DNA Protocol]

Category: Cell Biology and Cell Culture: Troubleshooting Cell Culture Problems

Guide For Identifying And Correcting Common Cell Growth Problems. Corning. Surface Treatment Process, Problems Related to Technique, Problems Related to Incubators, Problems Related to Culture Media, Problem Solving Suggestions. - [Read Guide For Identifying And Correcting Common Cell Growth Problems]

Category: Pharmacology and Toxicology Protocols: Cytotoxicity Protocols: Liver Toxicity Assays Protocols

This test is designed to detect irreversible toxic effects on both cell growth and survival, by the evaluation of colony-forming (CF) efficiency, in hepatoma cell lines derived from man, rat and mouse. - [Read Hepatoma Cell Cultures as In Vitro Models for Hepatotoxicity]

Category: Competent Cells Protocols

This is an easy and straightforward protocol that gives efficiencies of 106 to 107 cfu/mg of plasmid DNA.  A growth curve is required for each strain that is prepared.
- [Read High Efficiency FCC Preparation and Tx Protocol]

Category: Pharmacology and Toxicology Protocols: Drug Discovery

High-throughput and sensitive assay to measure yeast cell growth: a bench protocol for testing genotoxic agents. Method is highly sensitive, provides quantifiable data and offers high-throughput screening capability.  Starting with the treatment of cells with different doses of damaging agents, pre-prepared growing media containing 96-well plates are inoculated and cell population is automatically monitored every 10 min for 48 hours.  - [Read High Throughput and Sensitive Assay Measure Yeast Cell Growth Protocol]

Category: Fungi Protocols: Neurospora Protocols

Hints and precautions for the care, feeding and breeding of Neurospora. Includes: Crossing; Tips on handling ascospoes General Laboratory Practices; Stockkeeping; Mutagenesis and enrichment; Tips for encouraging colonial growth; Solutions and media; Handling Heterokaryons. - [Read Hints and Precautions for the Care, Feeding and Breeding of Neurospora]

Category: Fungi Protocols: Neurospora Protocols

Information and tips on how to convert wild-type spreading growth to colonial. - [Read How to Convert Wild-Type Spreading Growth to Colonial]

Category: Fungi Protocols: Neurospora Protocols

Information and tips on how to measure and monitor linear growth rate. - [Read How to Measure and Monitor Linear Growth Rate]

Category: Cytogenetics Protocols: DIG Biotin Labeled Probe Protocols

Protocol for the identification of single bacterial cells using DIG-labeled oligonucleotides. Includes: Organisms and growth conditions; Cell fixation and preparation of cell smears; DIG labeling of oligonucleotides with DIG-ddUTP; In situ hybridization using digoxigenin-labeled oligonucleotides; Detection of DIG-labeled oligonucleotides with fluorescently labeled anti-DIG Fab fragments; Detection of DIG-labeled oligonucleotide.
 - [Read Identification of Single Bacterial Cells using DIG-Labeled Oligonucleotides Protocol]

Category: Nucleic Acid Modification Protocols: DIG Biotin Labeled Probes Protocols

Protocol for identification of single bacterial cells using DIG-labeled oligonucleotides. Includes: Organisms and growth conditions; Cell fixation and preparation of cell smears; DIG labeling of oligonucleotides with DIG-ddUTP; In situ hybridization using digoxigenin-labeled oligonucleotides. - [Read Identification of Single Bacterial Cells Using DIG-Labeled Oligonucleotides Protocol]

Category: Plant Biology Protocols

Protocol of in vitro growth of seedlings includes: sterilisation of seeds; plating and growth. - [Read In Vitro Growth of Seedlings]

Category: Pharmacology and Toxicology Protocols: Cytotoxicity Protocols: Cell Specific Cytotoxicity Assays Protocols

The effect of a test compound, in the presence and absence of S-9 mix, on the differentiation and growth of rat limb bud and CNS cells in vitro indicates whether it is potentially a teratogen in vivo. - [Read In Vitro Micromass Teratogen Assay]

Category: Cell Culture Protocols: Insect Cell Culture Protocols

Protocol for insect cell culture and baculovirus infections. Includes: Cells, Media, Growth Characteristics, Freezing and Thawing Cells, and Glassware. - [Read Insect Cell Culture and Baculovirus Infections Protocol]

Category: Immunology: Mononuclear Cell Isolation Protocols

Mononuclear phagocyte progenitor cells derived from femoral and tibial bone marrow are propagated in the presence of M-CSF. This macrophage growth factor is secreted by L929 cells and is used in the form of L929 cell conditioned medium. The progenitor cells proliferate and differentiate through monoblast, promonocyte and monocyte stages before maturing to macrophages. At this time the cells become firmly adherent to the culture vessel. - [Read Isolation and Culture of Mouse Bone Marrow-Derived Macrophages Protocol]

Category: Mouse Protocols: Mouse Cell Culture Protocols

The procedures involve the isolation and growth of primary cell cultures from rodent and human tissue as well as the use of viral vectors for the introduction and expression of mammalian genes in cells in culture and in live rodents. - [Read Isolation and Growth of Primary Cell Cultures from Mouse Protocol]

Category: Cell Biology and Cell Culture: ES Stem Cell Biology and Culture: MEF Protocols Mouse Embryonic Fibroblasts

Embryonic stem cells are usually grown on a layer of mitotically inactivated primary mouse embryonic fibroblasts to promote growth and prevent differentiation. Boris Greber - [Read Isolation and handling of primary mouse embryonic fibroblasts (MEFs)]