label Protocols

Category: Cell Biology and Cell Culture: Flow Cytometry Protocols: Apoptosis Cytometry Protocols

Protocol for apoptosis detection using TUNEL protocol. This technique uses the enzyme terminal deoxynucleotidyl transferase (TdT) to label cells that have oligonucleosomal nicks/strand breaks in their DNA. - [Read Apoptosis Detection: TUNEL Protocol]

Category: Cytogenetics Protocols

This CGH Protocol is used for DNA of good quality when available in sufficient amounts. We usually do replicate hybridizations using samples labeled "inversely" (reversing the label for test and normal DNA's). If appreciable artifact occurs, then alternative labels are tried. - [Read CGH of Direct Labeled Test DNA vs Normal DNA Protocol]

Category: Cytogenetics Protocols: DIG Biotin Labeled Probe Protocols

This protocol describes how to use DIG Chem-Link to directly label any DNA [e.g. plasmids, PCR products, cDNA prepared from mRNA] or RNA (e.g. total RNA, poly(A)+ mMRNA). The DIG Chem-Link or Biotin Chem-Link may also be used to label oligonucleotides. Includes: Required Purity of DIG Chem-Link Templates; Direct DIG Labeling of mRNA or cDNA with DIG Chem-Link; Key Product Required for Direct Labeling of DNA or RNA; Estimating the Yield of DIG-labeled Nucleic Acids. - [Read Chem-Link Labeling of DNA or RNA with DIG or Biotin Protocol]

Category: Fluorescent Dyes Protocols

Cyanine dye reagents are useful as fluorescent labels for proteins. This protocol has been designed to label the thiol group on cysteine using Cy3 or Cy5 minimal maleimide labeling dyes. - [Read Cyanine Dye (Maleimide) Protein Labeling Protocol]

Category: Bacterial Cell Culture Protocols: Bacterial Cell Culture Media Protocols

This protocol has been used successfully to 15N or 13C/15N label our proteins using our pET1120/BL21(DE3) expression system: Preparing M9 minimal media begins with preparing a 5x stock solution of M9 salts. Generally, M9 salts contain a nitrogen source in the form of NH4Cl. Since we want to add a labeled nitrogen source, our 5x salts are prepared minus NH4Cl. Standard 5 X M9 Minimal Media salts minus nitrogen source For 1L 5xM9 salts: - [Read Expression Protocol in M9 Minimal Media via T7 Promoter]

Category: Microscopy Protocols: Fluorescence Microscopy Protocols

Most biological specimens are relatively transparent, so details of internal and intracellular morphology are difficult to image in untreated living specimens using simple bright-field techniques. Fluorescence microscopy offers greater advantages and possibilities for increasing contrast and determining the specific localization of molecules in cells. Article outlines the three methods most commonly used to introduce an appropriate label into Drosophila tissue without perturbing the process. - [Read Fluorescent Reagents for Live Cell Imaging and Their Introduction into Cells]

Category: Reporter Gene Assays: GFP Assay Protocols

Specific molecular components can be efficiently labeled by a combination of three methods: chemical transfection of GFP-fusion constructs, staining of chromosomes with the DNA-specific, fluorescent dye Hoechst 33342, and microinjection of fluorescently conjugated proteins. This procedure provides an example of using all three methods in sequence to label components of living HeLa cells. These methods should be followed in the order presented, but any of them can be omitted when not needed. - [Read Imaging Hoechst-Labeled Chromosomes and Fluorescent Proteins during the Cell Cycle]

Category: Microinjection Protocols

Fluorescence microscopy provides a powerful tool for imaging molecular components in living cells. Specific molecular components can be efficiently labeled by a combination of three methods: chemical transfection of GFP-fusion constructs, staining of chromosomes with the DNA-specific, fluorescent dye Hoechst 33342, and microinjection of fluorescently conjugated proteins. This procedure provides an example of using all three methods in sequence to label components of living HeLa cells. - [Read Imaging Hoechst-Labeled Chromosomes and Fluorescent Proteins during the Cell Cycle]

Category: PCR Protocols: Real-Time PCR Protocols

In multiplex real-time PCR, different sets of primers with different labels are used to amplify separate genes from the template DNA in one tube.  This protocol uses LUX (Light Upon eXtension) primers from invitrogen.  FAM (6-carboxy-fluorescein) is used to label the gene of interest, and JOE (6-carboxy-4', 5'-dichloro-2',7'-dimethoxy-fluorescein) is used to label a housekeeping gene as an internal control to normalize between different reactions. - [Read Multiplex Real-Time PCR Protocol]

Category: Cell Biology and Cell Culture: Flow Cytometry Protocols: Flow Cytometry Immunofluorescence Staining Protocols

Protocol for phenotype-specific immunodetection of cyclins using 488/630 nm dual laser flow cytometry. This protocol is for use with the D and E cyclins and employs 488 nm argon laser excitation of propidium iodide and a FITC-conjugated phenotypic label, and 630 nm NeNe or diode laser excitation of the fluorochrome Cy5 to detect cell cycle-specific cyclin D expression. - [Read Phenotype-Specific Immunodetection of Cyclins using 488/630 nm Dual Laser Flow Cytometry Protocol]

Category: DNA Protein Interactions Protocols

Protocol for preparation of the 32P-labeled oligonucleotide probe. - [Read Preparation of the 32P-Labeled Oligonucleotide Probe Protocol]