The present invention provides for engineered molecular opsonins that may be used to bind biological pathogens or identify subclasses or specific pathogen species for use in devices and systems for treatment and diagnosis of patients with infectious diseases, blood-borne infections or sepsis. An aspect of the invention provides for mannose-binding lectin (MBL), which is an abundant natural serum protein that is part of the innate immune system. The ability of this protein lectin to bind to surface molecules on virtually all classes of biopathogens (viruses, bacteria, fungi, protozoans) make engineered forms of MBL extremely useful in diagnosing and treating infectious diseases and sepsis.

The invention concerns novel streptavidin muteins and methods of determining, immobilizing, isolating or purifying proteins under denaturing conditions. In one embodiment such a mutein has an Cys residue at sequence position 127 of the wild-type sequence of streptavidin and comprises at least one mutation in the region of the amino acid positions 117 to 121 with reference to the amino acid sequence of wild type streptavidin.

The invention concerns novel streptavidin muteins and methods of determining, immobilizing, isolating or purifying proteins under denaturing conditions. In one embodiment such a mutein has an Cys residue at sequence position 127 of the wild-type sequence of streptavidin and comprises at least one mutation in the region of the amino acid positions 117 to 121 with reference to the amino acid sequence of wild type streptavidin.

The present invention concerns certain peptides obtainable by hydrolysis from soy glycinin by the action of supernatant cultures of strains belonging to the genera Lactobacillus or Streptococcus. These peptides, extracts containing them and food products containing them are useful for the treatment and/or prevention of obesity and oxidative stress.

Specific peptides, and derived ionization characteristics of the peptides, from the Fatty acid synthase (FASN) protein are provided that are particularly advantageous for quantifying the FASN protein directly in biological samples that have been fixed in formalin by the method of Selected Reaction Monitoring (SRM) mass spectrometry, or what can also be termed as Multiple Reaction Monitoring (MRM) mass spectrometry. Such biological samples are chemically preserved and fixed and are selected from tissues and cells treated with formaldehyde containing agents/fixatives including formalin-fixed tissue/cells, formalin-fixed/paraffin embedded (FFPE) tissue/cells, FFPE tissue blocks and cells from those blocks, and tissue culture cells that have been formalin fixed and or paraffin embedded. A protein sample is prepared from said biological sample using the Liquid Tissue™ reagents and protocol and the FASN protein is quantitated in the Liquid Tissue™ sample by the method of SRM/MRM mass spectrometry by quantitating in the protein sample at least one or more of the peptides described. These peptides can be quantitated if they reside in a modified or an unmodified form. An example of a modified form of an FASN peptide is phosphorylation of a tyrosine, threonine, serine, and/or other amino acid residues within the peptide sequence.

The present invention relates to a short peptide-based therapeutic agent and a medicinal composition including the same for inhibiting activities of cancer cells, which includes at least one short peptide listed as SEQ ID NOs: 1 and 2, either of which is unglycosylated and has no more than 40 amino acid residues, thereby specifically reducing or inhibiting activities of cancer cells such as the cancer cell proliferation, cancer stemness, cell migration, cancer cell invasion, metastasis or drug resistance.

The objective of the present invention is to provide a Fab region-binding peptide which is excellent in a binding capability to a Fab region of IgG, an affinity separation matrix which has the peptide as a ligand, and a method for producing a Fab region-containing protein by using the affinity separation matrix. In addition, the objective of the present invention is to provide a DNA which encodes the peptide, a vector which contains the DNA, and a transformant which is transformed by the vector. The above-described problems can be solved by utilizing a Protein G variant having the mutation of an amino acid substitution at the specific position.

The objective of the present invention is to provide a Fab region-binding peptide which is excellent in a binding capability to a Fab region of IgG, an affinity separation matrix which has the peptide as a ligand, and a method for producing a Fab region-containing protein by using the affinity separation matrix. In addition, the objective of the present invention is to provide a DNA which encodes the peptide, a vector which contains the DNA, and a transformant which is transformed by the vector. The above-described problems can be solved by utilizing a Protein G variant having the mutation of an amino acid substitution at the specific position.

The present invention relates to a factor VII composition having a substantially homogeneous isoelectric point and to a method for formulating such a composition. The present invention also relates to the therapeutic use of a factor VII composition having a substantially homogeneous isoelectric point.

The present invention relates to Tau-specific antibodies, fragments thereof, and uses thereof. More specifically, the present invention relates to Tau-specific antibodies, fragments thereof, and conjugates thereof with conjugated to a superparamagnetic nanoparticle. The molecules of the present invention may be used in visualizing damage from traumatic brain injury.