pattern Protocols

Category: Epigenetics and Methylation Protocols

The pattern and extent of DNA methylation can significantly affect the success of restriction digestions or bacterial transformations. Prokaryotic DNA may be methylated by host restriction/modification systems, while eukaryotic DNA often is methylated i - [Read A practical guide to DNA methylation Promega PDF]

Category: Cytoskeleton Protocols: Actin Myosin Protocols

Phalloidin binds specifically to F-actin, and fluorescent-tagged phalloidin stains the actin skeleton in cells in a manner that is very close to the staining pattern seen using anti-actin antibody. - [Read Actin Staining in Fixed Yeast Cells Protocol]

Category: Microscopy Protocols: Confocal Microscopy Protocols

Protocol describes the acquisition and processing of confocal fluorescent and bright field images of live cells, expressing cyan fluorescent protein(CFP) and/or yellow fluorescent protein (YFP), with a spinning disk confocal head on a Zeiss Axiovert 200 M microscope. This procedure is used to help determine if N- or Cterminal tagging of signaling molecules alters the steady state localization pattern of the signaling protein in question. - [Read Live Cell Spinning Disk Confocal Fluore Imaging of Cells- Colocalization of Fluorescent Protein Tags]

Category: RNAi Technology Protocols: RNAi Avian Embryos Protocols

Protocol describes a method to stain nerve fibers in tissue slices of avian embryos using an antibody against the 160-kD subunit of neurofilaments.  This allows the comparison of the branching pattern of motor and sensory neurons between control and experimental embryos.  The tissue is cut in slices using a vibratome or tissue slicer.  The protocol is suitable for older embryos after approximately stage 33 and regions that are not accessible by whole-mount analysis. - [Read Staining of Tissue Slices for Analysis of Axonal Pathfinding in dsRNA-Treated Avian Embryos]

Category: Avian Bird Protocols

Protocol describes a method to stain nerve fibers in tissue slices of avian embryos using an antibody against the 160-kD subunit of neurofilaments. This allows the comparison of the branching pattern of motor and sensory neurons between control and experimental embryos. The tissue is cut in slices using a vibratome or tissue slicer. The protocol is suitable for older embryos after approximately stage 33 and regions that are not accessible by whole-mount analysis. - [Read Staining of Tissue Slices for Analysis of Axonal Pathfinding in dsRNA-Treated Avian Embryos Protocol]

Category: RNAi Technology Protocols: RNAi Avian Embryos Protocols

Protocol describes a method for staining nerve fibers in whole-mount preparations of avian embryos using an antibody against the 160-kD subunit of neurofilaments.  This allows the comparison of the branching pattern of motor and sensory neurons between control and experimental embryos.  This protocol has been successfully applied for embryos at different stages up to about stage 33 (7 days of incubation). - [Read Whole-Mount Preparations for Analysis of Axonal Pathfinding in dsRNA-Treated Avian Embryos]

Category: Avian Bird Protocols

Protocol describes a method for staining nerve fibers in whole-mount preparations of avian embryos using an antibody against the 160-kD subunit of neurofilaments. This allows the comparison of the branching pattern of motor and sensory neurons between control and experimental embryos. This protocol has been successfully applied for embryos at different stages up to about stage 33 (7 days of incubation). - [Read Whole-Mount Preparations for Analysis of Axonal Pathfinding in dsRNA-Treated Avian Embryos Protocol]