Abstract: This disclosure provides for the application of a multi-disciplinary analysis of information sources to draw novel conclusions that result in new methods to diagnose, prevent or treat COVID-19. COVID-19 appears to be an extremely complex disease, encompassing three critical aspects at least: a viral infection, an immune system disorder, and a cardiovascular/pulmonary/renal disease with significant coagulation system dysregulation. This disclosure principally focuses on the design and methods of use of a combinatorial apparatus that addresses critical needs to treat patients with COVID-19, especially those at high risk of, or experiencing, adverse effects of COVID-19 infection, including but not limited to kidney function support, supplemental oxygen administration, correction of cardiovascular dysfunction, and removal or modification of deleterious molecules or agents from or in a patient's blood, including virus particles or molecular components thereof.

Abstract: This disclosure provides for the application of a multi-disciplinary analysis of information sources to draw novel conclusions that result in new methods to diagnose, prevent or treat COVID-19. COVID-19 appears to be an extremely complex disease, encompassing three critical aspects at least: a viral infection, an immune system disorder, and a cardiovascular/pulmonary/renal disease with significant coagulation system dysregulation. This disclosure principally focuses on modes and sites of infection of the SARS COV-2 virus and the role of lectins, the lectin complement pathway, coagulation system dysfunction, related genetic polymorphisms, trypsin-like serine proteases, interferon stimulation of the innate immune system, and other factors in the disease process. Corresponding methods to address the COVID-19 pandemic are provided.

Abstract: The present invention relates to isolated structures containing degradative enzymes produced from a marine organism. The enzymes produced are based on the carbon source upon which the marine organism is growing. The enzymes are found in structures that can be isolated such that the degradative enzymes are easily harvested.

Abstract: The present invention relates to isolated structures containing degradative enzymes produced from a marine organism. The enzymes produced are based on the carbon source upon which the marine organism is growing. The enzymes are found in structures that can be isolated such that the degradative enzymes are easily harvested.

Abstract: The present invention relates to isolated structures containing degradative enzymes produced from a marine organism. The enzymes produced are based on the carbon source upon which the marine organism is growing. The enzymes are found in structures that can be isolated such that the degradative enzymes are easily harvested.

Abstract: The present invention is directed to the production and use of custom tailored, bacterial enzyme mixtures or components thereof for degrading biofilms in both industrial and therapeutic applications. The industrial applications include but are not limited to the use biofilm-degrading, multiple specificity, hydrolytic enzyme mixtures for removing or preventing the formation of biofilms in water cooling towers, industrial process piping, heat exchangers, in food processing or food preparation, in potable water systems, reservoirs, swimming pools, or related sanitary water systems, and on membranes such as those used for desalinization, industrial processes, or related applications.

Abstract: Methods and systems for drug discovery and development are disclosed. Methods and system consistent with the present invention discover drugs. One or more databases comprising chemical and biological interaction data and one or more computer-based data analysis programs may be used to identify compounds that have desired activity at two or more molecular targets that are associated with a disease state for which the drug discovery and development are directed.

Abstract: The invention provides methods determining a set of one or more molecular targets for developing a treatment for abuse of, or addiction to, a substance. The methods involve determining a biological activity profile by determining a set of molecular targets whose activity is effected by the abused or addictive substance. The biological activity profile may then be used in other methods of the invention to identify at least one chemical compound to treat abuse or addiction. The chemical compounds interact with the molecular targets in a manner substantially the same as the abused or addictive substance. The invention also provides methods for treating substance abuse wherein chemical compounds identified by the methods of the invention are administered in effective amounts to patients in need thereof. A computer system for implementing the methods of the invention is also provided.

Abstract: The present invention is directed to a method of recovering a biological molecule from a recombinant microorganism produced using a method based on either protoplast fusion or lipofection. The present invention further provides a method of identifying, isolating, or making a biological molecule from a recombinant microorganism and also encompasses the biological molecule produced by a recombinant microorganism. Moreover, the present invention relates to a method of making a recombinant microorganism containing the nucleic acid of a microorganism in an environmental sample, as well as the recombinant microorganisms themselves. Finally, the present invention is directed to a method of making a recombinant library, as well as the recombinant library itself.

Abstract: The present invention is directed to a method of recovering a biological molecule from a recombinant microorganism produced using a method based on either protoplast fusion or lipofection. The present invention further provides a method of identifying, isolating, or making a biological molecule from a recombinant microorganism and also encompasses the biological molecule produced by a recombinant microorganism. Moreover, the present invention relates to a method of making a recombinant microorganism containing the nucleic acid of a microorganism in an environmental sample, as well as the recombinant microorganisms themselves. Finally, the present invention is directed to a method of making a recombinant library, as well as the recombinant library itself.

Abstract: The present invention is directed to a method of recovering a biological molecule from a recombinant microorganism produced using a method based on either protoplast fusion or lipofection. The present invention further provides a method of identifying, isolating, or making a biological molecule from a recombinant microorganism and also encompasses the biological molecule produced by a recombinant microorganism. Moreover, the present invention relates to a method of making a recombinant microorganism containing the nucleic acid of a microorganism in an environmental sample, as well as the recombinant microorganisms themselves. Finally, the present invention is directed to a method of making a recombinant library, as well as the recombinant library itself.

Abstract: We have developed methods for low-cost fermentation of marine bacteria. A cost- and performance-optimized culture medium containing liver digest and suitable salts was developed and compared to currently available culture media. Cell counts as high as 10.sup.2 /ml were achieved, and growth was supported for a variety of marine strains tested to date. Large scale fermentation of marine bacteria is a promising approach for producing commercially valuable biopolymers for industrial applications.