How To Get Admission In National Institute Of Fashion Technology Biotechnology and Colours

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Biotechnology and Colours

Biotechnology and the world of color are always interconnected. Colors and hues are captured in natural state or synthesized in different market products. The flower market of natural blood red roses and genetically engineered blue roses just released in Japan is a good example.

To this day, despite the astonishing snip and tuck technique of genetic engineering, the legendary ‘Black Tulip’ by French author Alexander Dumas remains the ‘Holy Grail of the Tulip world’. Varieties from ‘Tulip Queen of Night’ (1944) to T. ‘Black Hero’ (1984) form the official ‘purple tulip variety’.

The richness of natural colors inspired the famous French artist and poet — Hillarie Belloc, born in France, described in verse the physiology of the microcosm with a ‘seven-pointed tail with pink and purple dots. Lots. ‘; And school students to explore the microbial world through the ‘looking mirror’ of Winogradsky’s column with purple and green groups — groups of green and purple photosynthetic bacteria. Blue-green cyanobacteria contribute to the economics of nature’s most important biochemical cycle – the nitrogen cycle.

The Red Sea can derive its color and name from the red bacterium Srichodesmium – Trichodesmium erythraeum, but the destruction of many fish is due to the red tide population of reddish-brown dinoflagellates like plants. Pigments help classify brown, yellow, red and green algae. And protozoa and fungi such as Euglena and Pichia. The color art of nature occurs throughout the biospectrum, which includes green and purple interalia bacteria, species that produce antibiotics, Streptomyces and Nocardia, green cheese, anise green, papaya, rainbow and trout and green fluorescent proteins responsible for Discoloration of mixed corals and ants. Greens, yellows, oranges, reds, and purples – chromoproteins – are chromoproteins of the great reefs that differ in the spectrum of daylight conditions.

Indeed, nature’s color palettes and paints underscore the need for biological resource centers to capture, classify, and conserve the planet’s biodiversity, lest it become extinct due to negligence and commercial exploitation.

‘Biomimicry …… is a new science that studies the best ideas of nature and then mimics these designs and processes to solve human problems. …… Organisms use two methods to create color without paint: internal pigments and structural colors that make tropical butterflies, peacocks and hummingbirds so beautiful. The peacock is a completely brown bird. Its “color” arises from the light scattering from melanin particles at regular intervals and the effect of interfering through a thin layer of keratin (the same material as your fingernails). ‘

The new military uniforms use fluorescent colors, biosensors and bioinformatics at the nano level to mimic the natural phenomena of biomimicry and chameleonic colors. Colorful geofabrics for proper use contribute to landscape and city management — conservation of golf courses and lawns, and protection of the creative and aesthetic instincts of humanity embedded in dams and flower gardens .

Clean and green technology. The first convertible green credit card was issued in 1997. ‘Red coral proteins’ in seawater and light-colored fish function as indicators of pollution in reservoirs. The colors used in biotextile biopsies make the use of bioceramic materials attractive and acceptable in dentistry, medicine, orthopedics, tissue engineering, and veterinary sciences.

Genetic research has contributed to the understanding of the human eye and skin color. The genes of the coat color of cats, dogs, rabbits, ponies, etc. are interpreted. The color of the bird’s head as well. Alleles were used to produce sublines of mice for age-related studies, cancer, cardiovascular, neurological, and reproductive biology. Big blue mice are used to research cancer and neuropathy. Yellow mice assist localization of genetic mutations on specific chromosomes. Homemade mice — albino, cream, brown, and black specimens were the key to researching the biology of tumors. Of course, the ‘ability to imitate coating colors’ requires’ no sophisticated tools such as molecular genotyping’ in ‘breeding and care of mutant varieties.

Color inspires and uplifts humanity. Clinics and mental facilities use relaxing colors to aid in healing. Color is also available in sports. Winners express a sense of national achievement and pride in raising their flag. At Euro 2004 – football and biology met. To maximize the emotional and patriotic benefits, the home team coach asked fans to ‘wear red or green’, their national colors ‘touch the orange shirt’ of their opponents in the qualifiers.

Corporate biotechnology is involved in the ‘rainbow chase’. Former Vice President Al Gore imagined ‘the potential of gold at the end of the biotechnology rainbow’. Entrepreneurs, however, focus on their search for ‘somewhere on the genetic rainbow’. UN policymakers use color coding to fight and develop solutions to the problems of hunger and poverty. The United Nations Economic Commission for Africa in 2002 described ‘Achieving the promise of green biotechnology for the poor’ and ‘tackling poverty through red biotechnology’. Involves the use of genetically modified mosquitoes with the potential to eradicate malaria. And genetically modified foods — Golden rice and orange bananas are rich in vitamin A to combat the onset of dark circles.

‘The moral challenge of green biotechnology for developing countries’ has arisen:’ Genetically modified plants should have markings such as color markings so that they can be identified and not mixed with other existing plants. The same category ‘is under scrutiny for use. In regulatory work. In space biology research, mutated plants using blue and green are being developed as biological sensors to detect the presence of certain stressors.

Nutritionists talk about a rainbow diet rich in micronutrients and vitamins that make food attractive and appetizing for a ‘good mood’ situation. Traditional medicine recommends eating natural foods that contain natural phytonutrients in their skin ingredients. The right choice of red (meat), green (salad), yellow (cereals and fruits) and purple (vegetables) contributes to long-term health support in the fight against artificial diabetes and obesity. Blue cheese and eggplant are delicious without food coloring. And the supermarket may soon be offering red and purple carrots with an orange variety. ‘Research on different colored carrots is not about updates, but about potential health improvements.’

In the agricultural trade, traffic – the colors of light yellow and green set policies that distort the trade of certain goods. The Amber box policy represents ‘caution’ in relation to ‘market loan price support and subsidies and livestock quantities’. The Green Box policy covers ‘research on pest and disease control and crop insurance and conservation programs’. The blue box policy – The interim WTO type that facilitates transatlantic negotiations is ‘redefined amber box policy regarding production scheduling’.

Biotechnology, described in color, focuses on important aspects of research for economic development. The 2003 Cordia-EuropaBio Convention in Vienna in ‘Blue Biotechnology – Marine Exploitation’ focuses on ‘oceans of opportunity’ for sustainable development through rational use of marine resources. Europe’s role as a catalyst in ‘Green Biotechnology in Africa’ lies in integrated biotechnology education, research, development and market capitalization.

In January 2004, the European Commission meeting at the Biosciences’ Technology Facility ‘, University of York, UK recognized that the’ biotechnology forum for the development of biologically based products must be a joint marriage of ‘white’ together with ‘Green’ and ‘Blue’ Biotechnology. Unlocking the blockage can be achieved through software that uses the ‘combination of green, white and blue biotechnology’.

In 2005, the 12th European Biotechnology Congress will use four biotech motors: white (industrial); Red (medicine), green (food and fodder) and blue (environment) in ‘bring genes to life’ in Denmark.

The use of color coding is similar to the French language of scientific policy in Germany. Sixty percent of the 253 biotech companies with about 43,000 employees in a survey by Hessen’s Ministry of Economy specialize in red biotechnology (diagnosis and treatment). 4% specialize in green biotechnology (agriculture, food production). And 1% is in gray biotechnology (purely industrial processes that are environmentally different). In Baden-Württemberg, more than half of the biotech companies excel in red biotechnology with smaller numbers in the gray and green sectors. The German market study emphasizes white and red biotechnology. Red Biotechnology accounts for 86% of all biotech companies. Green biotechnology with 27% was followed by gray biotechnology with 10%.

In the United States, a five-code security system from green (low) to blue (protective), yellow (increased), and orange (high) to red (severe) is achieved. Taking a defensive and self-defense response involves vigilance and readiness at all levels to combat and neutralize the threat of terrorism and terrorism that seeks to undermine the security of the country and its people. The Color Alert System for Air Pollution (USA) and Unfavorable Weather (Mozambique) are indicators of available time for precautionary actions by people prone to asthma and respiratory illnesses, as well as compensation for loss of life. And biological resources.

In humorous terms, there is a notification ‘Level Five (color) Mad Cow’. Alarm levels range from beef consumption (green) through limited consumption of beef (blue) and the implementation of planned preventive measures (yellow) to symptoms and chewing (orange). ) To switch to fermented foods – tofu (red).

The use of color to describe biotechnology creates a new mechanism in:

– Attract school children to the microbial world in a variety of environments;

Teaching biotechnology in colleges and medical schools. And

– Providing bit sounds for use by non-technical policy makers that promote biotechnology for sustainable development.

“If we could weave the flag of biotechnology, some would say it would be three colors: red for color medical applications,” said Dr. R. Colwell, director of the U.S. National Foundation at the US-EC Biotech Conference in 2003. Green for agriculture and white for industry. Of course, these flags can get more colorful over time due to environmental and marine technologies and other applications adding to their stripes.

In that context, the following color index can be a useful guide with additions, as biotechnology and color are intertwined over time to raise awareness and public awareness of biotechnology applications for the scientific cause of development. And the future of humanity, present and post-humanity.

Color type Area of ​​biotechnology activity

Red – Health Medical Diagnosis

Yellow – Biotechnology, Food, Science, Nutrition

Khieu – Coastal aquaculture and marine biotechnology

Green – Agriculture, Biotechnology, Environment – Biofuels, Biology, Biochemistry, Geology

Brown – Dry Areas and Desert Biotechnology

Darkness – Bio-Terrorism, Bio-War, Bio-Crime, War Against Crops

Purple – Patent Publishing Innovative IPRs

White – Genetic biotechnology

Gold – Biotechnology, Nanotechnology

Gray – Ancient fermentation technology and bio-processing

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