A sample preparation workflow to facilitate deep N-glycomics analysis of human serum by capillary electrophoresis with laser induced fluorescence (CE-LIF) detection accommodates the higher sample concentration requirement of electrospray ionization mass spectrometry connected to capillary electrophoresis (CE-ESI-MS). A temperature gradient denaturing protocol is applied on amine functionalized magnetic bead partitioned glycoproteins to avoid precipitation. This also results in the free sugar content of the serum being significantly decreased which allows PNGase F mediated release of the N-linked carbohydrates. The liberated oligosaccharides were tagged with aminopyrene-trisulfonate, utilizing a modified evaporative labeling protocol. This workflow provides appropriate amounts of material for example for use in CE-ESI-MS analysis in negative ionization mode.

A method for analyzing thrombogenic capacity or blood coagulation capacity, the method comprising adding calcium, a blood coagulation factor XII (FXII) inhibitor, and a kallikrein inhibitor to blood collected with a blood collection tube containing sodium citrate, to allow initiation of blood coagulation reaction, is provided. Preferably, heparin, heparan sulfate, and tissue factor are further added to the blood, and thrombogenic capacity or blood coagulation capacity is analyzed.

A method for analyzing thrombogenic capacity or blood coagulation capacity, the method comprising adding calcium, a blood coagulation factor XII (FXII) inhibitor, and a kallikrein inhibitor to blood collected with a blood collection tube containing sodium citrate, to allow initiation of blood coagulation reaction, is provided. Preferably, heparin, heparan sulfate, and tissue factor are further added to the blood, and thrombogenic capacity or blood coagulation capacity is analyzed.

To reduce the effect of L-proline in the reaction of a sarcosine oxidase. A modified sarcosine oxidase having reduced reactivity to L-proline is provided.

To reduce the effect of L-proline in the reaction of a sarcosine oxidase. A modified sarcosine oxidase having reduced reactivity to L-proline is provided.

Disclosed are formulations and procedures to improve the accuracy of nonanimal tests. Disclosed procedures involve both the direct application of the substance to be tested to the excised eye or other suitable test matrix, such as a differentiated tissue, and the application of an aqueous layer to the apical surface and then the addition of the substance to be tested as an overlay to the aqueous layer for a period of time so as to allow metabolism of the substance to be tested by the eye or test matrix, but not so long as to result in nonirritant or nontoxic test substance resulting in a FP result.

The present invention concerns screening methods to identify compounds that regulate activity of RSH enzymes such as Rel, and specifically Rel synthetase and/or Rel hydrolase activity. Also intended are compounds that interact and regulate Rel synthetase and/or hydrolase activity. These compounds are valuable to target persister cells not affected by traditional antibiotics.

The present invention relates to a method for detecting a target nucleic acid, the method including cleaving a first flap of a first cleavage structure formed by a target nucleic acid, a first nucleic acid, and a second nucleic acid; cleaving a second flap of a second cleavage structure formed by a third nucleic acid, the cleaved first flap, and a fourth nucleic acid; and detecting the presence of the target nucleic acid by detecting the cleaved second flap, wherein cleaving the first flap and cleaving the second flap are carried out by cleaving the first flap and the second flap with a flap endonuclease, and the flap endonuclease has an amino acid sequence having a sequence identity of 65% or higher with an amino acid sequence of a flap endonuclease of a microbe selected from the group consisting of microbes belonging to the Order Thermococcales and microbes belonging to the Order Methanobacteriales.

Compositions comprise statistically random heteropolymers complexed with active proteins, and are formulated and used in stimuli-responsive materials and nanoreactors composed of proteins and synthetic materials.

Compositions comprise statistically random heteropolymers complexed with active proteins, and are formulated and used in stimuli-responsive materials and nanoreactors composed of proteins and synthetic materials.