Abstract: The present invention provides methods and compositions, e.g., kits, for assaying a vitamin D moiety in a sample, comprising or using, inter alia, a buffer that is capable of dissociating a vitamin D moiety from its binding protein and/or a buffer of acidic pH, and at least two antibodies, e.g., at least two monoclonal antibodies, that are separately conjugated to particles, e.g., latex particles, wherein at least one of said antibodies (or the first antibody) has a specific binding affinity towards the vitamin D moiety, and at least another said antibody (or the second antibody) has a specific binding affinity towards the complex formed between the first antibody and the vitamin D moiety, if present in said sample. In some embodiments, the optical change due to the agglutination reaction between the antibodies and the vitamin D moiety is measured for determination of the amount of vitamin D content in the samples. Kits and reaction mixtures for assaying a vitamin D moiety in a sample are also provided.
Type:
Application
Filed:
July 20, 2022
Publication date:
November 17, 2022
Applicant:
Diazyme Laboratories, Inc.
Inventors:
Chong-Sheng YUAN, Kakhri Ben Habib SAIDA
Abstract: The present invention provides methods and compositions, e.g., kits, for assaying a vitamin D moiety in a sample, comprising or using, inter alia, a buffer that is capable of dissociating a vitamin D moiety from its binding protein and/or a buffer of acidic pH, and at least two antibodies, e.g., at least two monoclonal antibodies, that are separately conjugated to particles, e.g., latex particles, wherein at least one of said antibodies (or the first antibody) has a specific binding affinity towards the vitamin D moiety, and at least another said antibody (or the second antibody) has a specific binding affinity towards the complex formed between the first antibody and the vitamin D moiety, if present in said sample. In some embodiments, the optical change due to the agglutination reaction between the antibodies and the vitamin D moiety is measured for determination of the amount of vitamin D content in the samples. Kits and reaction mixtures for assaying a vitamin D moiety in a sample are also provided.
Type:
Grant
Filed:
July 28, 2017
Date of Patent:
September 6, 2022
Assignee:
Diazyme Laboratories, inc.
Inventors:
Chong-Sheng Yuan, Fakhri Ben Habib Saida
Abstract: Provided herein are compositions and methods for analyzing neutralizing antibodies to SARS-CoV-2, for example, in a sample from a subject suspected of having, having, or having had (e.g., having recovered from) a SARS-CoV-2 infection, or a subject having received a prophylactic and/or therapeutic intervention for a coronavirus infection.
Type:
Application
Filed:
July 14, 2021
Publication date:
January 20, 2022
Applicant:
Diazyme Laboratories, Inc.
Inventors:
Chong-Sheng Yuan, Fakhri B. Saida, Abhijit Datta, Chao Dou
Abstract: The present invention provides methods and compositions, e.g., kits, for assaying a vitamin D moiety in a sample, comprising or using, inter alia, a buffer that is capable of dissociating a vitamin D moiety from its binding protein and/or a buffer of acidic pH, and at least two antibodies, e.g., at least two monoclonal antibodies, that are separately conjugated to particles, e.g., latex particles, wherein at least one of said antibodies (or the first antibody) has a specific binding affinity towards the vitamin D moiety, and at least another said antibody (or the second antibody) has a specific binding affinity towards the complex formed between the first antibody and the vitamin D moiety, if present in said sample. In some embodiments, the optical change due to the agglutination reaction between the antibodies and the vitamin D moiety is measured for determination of the amount of vitamin D content in the samples. Kits and reaction mixtures for assaying a vitamin D moiety in a sample are also provided.
Type:
Application
Filed:
July 28, 2017
Publication date:
February 1, 2018
Applicant:
Diazyme Laboratories, Inc.
Inventors:
Chong-Sheng YUAN, Fakhri Ben Habib SAIDA