[Javaweb-submit] Wall Street Equity: Keeping You Informed

[xaqozopi gybofibi]

Get in now for huge gains !


SHORT TERM TARGET $9.00 
Undervalued 
Industrial Biotechnology Corporation 
Symb0l IBTY.pk 
Current_price 1.10 
Projected Short_Term Growth 9.00 
Rating 10 out of 10 

Top Analysts agree with the popular consensus that 2007 will be the year Biotech's shine. One of the most compelling reasons for this stance is the ongoing energy crisis. Any Biotech company that can develop fuels, chemicals and plastics from agricultural products rather than environmentally hazardous fossil fuels will be a major benefactor. The Morning Star Report has unearthed a new Biotech that is developing products to meet this global challenge. 

If Industrial Biotechnology is bought out by a Giant Chemical Company early 
IBTY shareholders could become millionaires┘Overnight!

Industrial Biotechnology, Inc. is a groundbreaking company with a unique niche in what is called the "third wave" of biotechnology. IBTY's strategic plan is to capitalize on the increasingly important role Biotechnology will play in the development of sustainable "green chemistry" and bio-energy production. In this respect, one refers to "industrial biotechnology". IBTY was formed to commercialize bio-energy and chemical substances by patented biological manufacturing technologies developed at Oxford University Chemistry Laboratories in Oxford, England. Oxford has spent more than 25 years and $15 million to create this biotechnology. IBTY has exclusive long term licensing agreements for multiple key patents from Oxford University. The constant and growing need for more innovative products for industry, health and agriculture has helped to spur biotech companies such as IBTY to further develop products through the use of enzymes. This new technology is mainly based on biocatalysis (the use of enzymes and cells to catalyze chemical reactions) and fermentation technology (directed use of micro-organisms), in combination with recent breakthroughs in the forefront of molecular genetics and metabolic engineering. IBTY's scientific team includes two leaders in the Biotech field Dr. Luet-Lok Wong, the chief inventor and lead chemist from Oxford University who developed this technology; and Gurinder Shahi, Chairman of BioEnterprise Asia, and Director of the Global BioBusiness Initiative at the Marshall School of Business, University of Southern California. 
Initial Commercial Application 

The initial commercial application IBTY plans is in the $18 billion annual Flavor and Fragrance market. IBC's proprietary process can identify, isolate, and create new customized natural chemicals for flavors & fragrances. IBTY is now producing samples of chemicals for use in flavor and fragrance applications. The company is exploring distribution and manufacturing partnerships with companies that have mass production capabilities. After an initial ramp-up of direct sales and the establishment of distribution relationships, there will be relatively minimal marketing and infrastructure expenses necessary to maintain and increase revenues over the life of the patents. IBTY's Process, Proprietary Intellectual Property and Patent Strategy Synthetic chemical reactions used in industry can generate toxic byproducts, which need to be removed before the desired end product is useable. IBTY's scientific team has developed a simple, highly efficient method to create pure materials from hydrocarbons, involving simple and nontoxic enzymatic reactions that eliminate the need for synthetic chemical reactions. This "nano-scaled factory" utilizes catalysts, such as microorganisms and enzymes, in a fermentation process, which converts raw materials (sugars) into chemicals for industrial and retail consumption. Fermentation is not new; people have been harnessing the power of microbes for thousands of years to produce items such as wine, cheese, bread, and dairy products. But recent scientific advancements are allowing fermentation processes to reach outside basic food production, become more cost efficient, yield larger quantities with better quality, and reduce harmful affects to our ecosystem. IBTY uses designer enzymes formed in bacteria as a "library" of modified forms of the enzymes, each clone targets one or more carbon groups of a hydrocarbon. Because the enzymatic reaction to produce the desired end product is carried out under conditions supporting bacterial growth, neither toxic components nor extremes of heat or pH are used. This oxidation system can be scaled up to large volumes. IBTY currently has exclusive long-term licensing agreements for several key patents from Oxford University. IBTY has initiated an aggressive patent strategy in order to protect their numerous current and pending patents. Also, they have developed a comprehensive plan for protecting new intellectual property and know-how for technologies that are currently in development. A strategic partnership has been formed with the principals of Fernandez and Associates, a leading patent and intellectual property firm specializing in high-technology intellectual property rights. 

Green Chemistry - Naturally Better 

This new technology has become a main contributing factor to what is referred to as "green chemistry", in which renewable resources such as sugars or vegetable oils are converted into a variety of chemical substances such as fine and bulk chemicals, pharmaceuticals, bio-colorants, solvents, bio-plastics, vitamins, food additives, bio-pesticides and bio-fuels such as bio-ethanol and bio-diesel. There are several significant ecological advantages to the applications of industrial biotechnology. Instead of using fossil fuel resources such as crude oil and gas, agricultural crops are used as raw materials. This technology also has a beneficial effect on greenhouse gas emissions while supporting the agricultural sector producing the raw materials. More importantly, industrial biotechnology consistently shows significant performance benefits when compared to conventional chemical technology. Some of the benefits include a higher reaction rate, increased conversion efficiency, improved product purity, lowered energy consumption and significant decrease in chemical waste generation. This combination of factors has led to the recent penetration of 'industrial biotechnology' in all sectors of the chemical industry. This is particularly true for fine chemicals and bulk chemicals such as plastics and fuels. Presently, the penetration of biotechnological production processes in the chemical industry is estimated at 5%, but is expected to increase significantly to 10-20% by the year 2010. Current 'conventional' chemical production will be forced to give more attention to "green chemistry". As a result of the greenhouse effect, depleting reserves of fossil resources, the implementation of clean technologies and the desired biodegradability of industrial products, many sectors within the chemical industry are seeing the benefits of using renewable raw materials for non-food applications. Just look at what goes into your own recycle bin. 

Sustainability - A Global Concern 

To understand the early stages of the global problem all you have to do is look at what is happening in China today. Their modernizing population is so large and growing at such acceleration that China is using up global resources at an increasing rate unlike any time in history. Contractors in China now have to search the globe for steel to feed their appetite for the construction of new buildings. The steel shortage is just the beginning. As the enormous Chinese population starts to shift from the use of bicycles to cars and from paper to plastic we will be see increasing demand at an even faster rate in the next 5 years. In addition, estimates are that we have taken more than 50% of the existing oil out of the Earth so far. If this is true, and many scientists including oil company researchers believe that it is, then we are beginning the downward slope of the global oil supply. Because of society's dependence on oil, and the rapid growth of developing countries it will take far fewer years to consume the other half of the total oil supply. As we have already seen with steel, as the supply of oil goes down and the demand goes up the price will go up... way up. 

Investment Conclusion 

Biotech's third wave (Bio Alternatives) of industrial and environmental biotechnology 
will provide meaningful alternatives. It has become increasingly clear that there are 
existing organisms that can be transformed into almost any industrial use. Industrial 
biotechnology products offer Eco-friendly solutions to the problems our planet faces now 
and in the coming decades. It is very clear that industrial and environmental 
biotechnology will play a huge role and experience rapid growth in shaping the future of 
our sustainability. IBTY is positioning itself to benefit from the global demand for 
products developed by Industrial Biotechnology. The recent wave of new and innovative 
applications indicates this is only the tip of the iceberg. These processes and products 
are based on renewable raw materials and possess substantial ecological benefits. Over 
the next few year's industry and policy people alike will give more attention to this 
"green chemistry" and the bioproducts that are developed. IBTY is on the 
cutting edge and plans on being a major benefactor of the market's demand.