. The extract was again transferred at 70 oC in 1000 ml for another 1 hour and filtered, and then this filtrate was mixed with first filtrate. This filtrate was used for dyeing without any addition of water. The optical density of the filtrate was measured using absorbent type UV-vis spectrophotometer. The optical density of the filtrate was found to be 0.7969 (Tea extract) & 2.235 (Turmeric extract). 4. Dyeing of premordanted bamboo fibres Dyeing conditions used: Dyes used = Turmeric & Tea NaCl = 5 % (owf) Dye concentration = The extracted liquor was used keeping the M :: L ratio at 1 : 30 Temperature = 70 oC Time = 60 min
Colour is most sensitive part of any commodity it enhances the consumer acceptability. It indicates freshness and safety of the food commodity .The demand for natural source of colorant is increasing day by day because of awareness s about the help.
a simple multi-utility miniature device used as test tube to 3D cell culture ...guo jun chen
IMAPlate 5RC96 is patented and developed by NCL New Concept Lab GmbH in Switzerland. It is a multi-utility miniature analytical platform that is capable of MANUALLY performing up to 96 individual liquid transfer, analysis, reaction and assay simultaneously. The device is compatible with most 96-well plate readers for the measurement and spectral analysis. The IMAPlate 5RC96 can be used as 96-channel self-dosed manual pipette for tiny amount liquid transfer, as a 96-micro long path-length high sensitive cuvette array for UV-VIS-IR spectrum detection with a flexible sample volume of 1 - 25 ul and as a virtual 96-microwell plate for different assays. The IMAPlate has very broad applications in life sciences and diagnostics and fits for both manual operation and automated liquid handling workstation.
Many assays performed in multi-well plate can easily be adapted to the IMAPlate with increased sensitivity and cost saving, for example ELISA, cell adhesion assay, protein quantification and so on. Due to its unique feature, it can also be used for 3D cell culture to prepare micro-tissues and perform subsequent testing and measurement directed in the device. If needed, the micro-tissues or cells in the IMAPlate can easily be transferred to any 96-well plate and even can be spotted on microscope slide directly from the IMAPlate.
Some of the landmark discoveries are tabulated below: 1902 Haberlandt proposed concept of in vitro cell culture 1966 Guha and Maheshwari produced first haploid plants from pollen grains of Datura
1904 Hannig cultured embryos from several cruciferous species 1970 Smith and Nathans discovered first restriction enzyme from Haemophilus influenza (HindIII)
1922 Kolte and Robbins successfully cultured root and stem tips respectively 1970 Baltimore isolated Reverse transcriptase from RNA tumour virus
two dimensional gel electrophoresis system
Biotechnology is a field that uses living organisms in engineering, technology, medicine, and other applications. It involves techniques like genetic engineering, cell and tissue culture. Some areas of biotechnology include microbiology, molecular genetics, biochemistry, biophysics, plant biotechnology, medical biotechnology, and agricultural biotechnology. Bio robotics loosely covers fields like cybernetics, bionics, and genetic engineering as applied to robots. It involves making biological organisms components of robots or as manipulable and functional as robots. Bio robotics is still developing and sometimes called synthetic biology or bionanotechnology.
Biotechnology is defined as any technique that uses living organisms or substances from those organisms to make or modify a product, to improve plants or animals, or to develop microorganisms for specific uses. It helps meet basic human needs like food, clothing, shelter, health and safety through scientific advances in agriculture, medicine, and environmental management. Some key applications of biotechnology include using enzymes in detergents and the pulp and paper industry, genetically engineering crops for traits like insect or drought resistance, and developing pharmaceuticals through biotechnology techniques like genetic engineering and cell culture.
. The extract was again transferred at 70 oC in 1000 ml for another 1 hour and filtered, and then this filtrate was mixed with first filtrate. This filtrate was used for dyeing without any addition of water. The optical density of the filtrate was measured using absorbent type UV-vis spectrophotometer. The optical density of the filtrate was found to be 0.7969 (Tea extract) & 2.235 (Turmeric extract). 4. Dyeing of premordanted bamboo fibres Dyeing conditions used: Dyes used = Turmeric & Tea NaCl = 5 % (owf) Dye concentration = The extracted liquor was used keeping the M :: L ratio at 1 : 30 Temperature = 70 oC Time = 60 min
Colour is most sensitive part of any commodity it enhances the consumer acceptability. It indicates freshness and safety of the food commodity .The demand for natural source of colorant is increasing day by day because of awareness s about the help.
a simple multi-utility miniature device used as test tube to 3D cell culture ...guo jun chen
IMAPlate 5RC96 is patented and developed by NCL New Concept Lab GmbH in Switzerland. It is a multi-utility miniature analytical platform that is capable of MANUALLY performing up to 96 individual liquid transfer, analysis, reaction and assay simultaneously. The device is compatible with most 96-well plate readers for the measurement and spectral analysis. The IMAPlate 5RC96 can be used as 96-channel self-dosed manual pipette for tiny amount liquid transfer, as a 96-micro long path-length high sensitive cuvette array for UV-VIS-IR spectrum detection with a flexible sample volume of 1 - 25 ul and as a virtual 96-microwell plate for different assays. The IMAPlate has very broad applications in life sciences and diagnostics and fits for both manual operation and automated liquid handling workstation.
Many assays performed in multi-well plate can easily be adapted to the IMAPlate with increased sensitivity and cost saving, for example ELISA, cell adhesion assay, protein quantification and so on. Due to its unique feature, it can also be used for 3D cell culture to prepare micro-tissues and perform subsequent testing and measurement directed in the device. If needed, the micro-tissues or cells in the IMAPlate can easily be transferred to any 96-well plate and even can be spotted on microscope slide directly from the IMAPlate.
Some of the landmark discoveries are tabulated below: 1902 Haberlandt proposed concept of in vitro cell culture 1966 Guha and Maheshwari produced first haploid plants from pollen grains of Datura
1904 Hannig cultured embryos from several cruciferous species 1970 Smith and Nathans discovered first restriction enzyme from Haemophilus influenza (HindIII)
1922 Kolte and Robbins successfully cultured root and stem tips respectively 1970 Baltimore isolated Reverse transcriptase from RNA tumour virus
two dimensional gel electrophoresis system
Biotechnology is a field that uses living organisms in engineering, technology, medicine, and other applications. It involves techniques like genetic engineering, cell and tissue culture. Some areas of biotechnology include microbiology, molecular genetics, biochemistry, biophysics, plant biotechnology, medical biotechnology, and agricultural biotechnology. Bio robotics loosely covers fields like cybernetics, bionics, and genetic engineering as applied to robots. It involves making biological organisms components of robots or as manipulable and functional as robots. Bio robotics is still developing and sometimes called synthetic biology or bionanotechnology.
Biotechnology is defined as any technique that uses living organisms or substances from those organisms to make or modify a product, to improve plants or animals, or to develop microorganisms for specific uses. It helps meet basic human needs like food, clothing, shelter, health and safety through scientific advances in agriculture, medicine, and environmental management. Some key applications of biotechnology include using enzymes in detergents and the pulp and paper industry, genetically engineering crops for traits like insect or drought resistance, and developing pharmaceuticals through biotechnology techniques like genetic engineering and cell culture.