The DNA is a red color band under UV light on EtBr staining because EtBr intercalate and binds double stranded DNA unspecifically, when it absorbs UV light, it emits red color.
GelRed is a nucleic acid stain commonly used in molecular biology research to visualize DNA in agarose gels. It intercalates between DNA base pairs and fluoresces when exposed to UV light, allowing for the detection and analysis of DNA bands.
GelRed is primarily used as a nucleic acid stain in molecular biology research. It intercalates between DNA molecules and fluoresces under UV light, allowing for visualization of DNA bands in agarose gel electrophoresis. GelRed is known for its high sensitivity, low background noise, and safety compared to ethidium bromide.
Agarose gel is made from a natural polysaccharide called agarose, which is extracted from seaweed. It is commonly used in molecular biology for separating DNA fragments based on their size through a process known as gel electrophoresis.
DNA migrates from the black (negative) terminal to the red (positve) if you place your DNA in the wells adjacent to the red terminal in would in a short time migrate off the end of your gel into the running buffer. Most people who run DNA gels have done this at least once.
Acetocarmine stain is a biological dye used in microscopy to highlight cell nuclei. It binds to DNA and RNA, making the nuclei appear red or pink under a microscope. It is commonly used in plant and animal cytology studies.
The gel red stain is highly effective in detecting DNA in laboratory experiments. It is commonly used due to its ability to bind specifically to DNA and produce a bright fluorescent signal under UV light, making it easy to visualize and analyze DNA samples in gel electrophoresis.
GelRed is a nucleic acid stain commonly used in molecular biology research to visualize DNA in agarose gels. It intercalates between DNA base pairs and fluoresces when exposed to UV light, allowing for the detection and analysis of DNA bands.
GelRed is primarily used as a nucleic acid stain in molecular biology research. It intercalates between DNA molecules and fluoresces under UV light, allowing for visualization of DNA bands in agarose gel electrophoresis. GelRed is known for its high sensitivity, low background noise, and safety compared to ethidium bromide.
Agarose gel is made from a natural polysaccharide called agarose, which is extracted from seaweed. It is commonly used in molecular biology for separating DNA fragments based on their size through a process known as gel electrophoresis.
DNA migrates from the black (negative) terminal to the red (positve) if you place your DNA in the wells adjacent to the red terminal in would in a short time migrate off the end of your gel into the running buffer. Most people who run DNA gels have done this at least once.
we use acetocarmine to stain chtomosomes. stained chromosomes distinguish from the other organels and materials, it gives the chromosomes a red color. it enables that, during the cell cyle we can observe the nucleus, duplication of DNA, and movement.
Acetocarmine stain is a biological dye used in microscopy to highlight cell nuclei. It binds to DNA and RNA, making the nuclei appear red or pink under a microscope. It is commonly used in plant and animal cytology studies.
Really depends on what type of red stain. Cleaning procedures are different for red dye or red wine for example.
The Red Stain - 1917 was released on: USA: 4 January 1917
If you are talking about a Gram Stain, then red. E. coli is Gram negative which means that Safranin will stain it red during a gram stain.
Methylene blue is used for many different staining purposes, but one of the main ones is staining RNA or DNA. In animal cells, it will stain the cytoplasm and the nucleus (the nucleus will be much darker).
cause it does this is a scientific reason therefore the white wine sinks into the carpet or what ever you have the red stain is and when the white wine sinks into the stain it releases the red stain particles and the red stain particles mix in with the white wine therefore the red stain is vanished