All Antigens Have Epitopes Of The Same Shape at Sharon Cox blog

All Antigens Have Epitopes Of The Same Shape. it is possible for two or more different antigens to have an epitope in common. the small site on an antigen to which a complementary antibody may specifically bind is called an epitope or antigenic determinant.  — many antigens have a number of distinct epitopes on their surfaces. In these cases, antibodies targeted to one antigen are able to react with all other antigens carrying the same epitope. However, lipid and nucleic acids can also act as antigens when combined with proteins or polysaccharides.  — an antigen can have one or more epitopes. In general, antibodies bind epitopes. Each of these epitopes can interact with different antigen. some antigens, such as polysaccharides, usually have many epitopes, but all of the same specificity. Most antigens have many determinants (i.e., they are multivalent).  — most antigens in humans are proteins, peptides, or polysaccharides; This is usually one to six.

However, lipid and nucleic acids can also act as antigens when combined with proteins or polysaccharides.  — many antigens have a number of distinct epitopes on their surfaces. Each of these epitopes can interact with different antigen.  — most antigens in humans are proteins, peptides, or polysaccharides; Most antigens have many determinants (i.e., they are multivalent). This is usually one to six. the small site on an antigen to which a complementary antibody may specifically bind is called an epitope or antigenic determinant. it is possible for two or more different antigens to have an epitope in common. In these cases, antibodies targeted to one antigen are able to react with all other antigens carrying the same epitope. some antigens, such as polysaccharides, usually have many epitopes, but all of the same specificity.

Epitopes Types, Function, Epitope Spreading • Microbe Online

All Antigens Have Epitopes Of The Same Shape  — most antigens in humans are proteins, peptides, or polysaccharides;  — many antigens have a number of distinct epitopes on their surfaces. it is possible for two or more different antigens to have an epitope in common. In general, antibodies bind epitopes. Each of these epitopes can interact with different antigen. This is usually one to six. However, lipid and nucleic acids can also act as antigens when combined with proteins or polysaccharides. Most antigens have many determinants (i.e., they are multivalent).  — an antigen can have one or more epitopes. some antigens, such as polysaccharides, usually have many epitopes, but all of the same specificity. In these cases, antibodies targeted to one antigen are able to react with all other antigens carrying the same epitope. the small site on an antigen to which a complementary antibody may specifically bind is called an epitope or antigenic determinant.  — most antigens in humans are proteins, peptides, or polysaccharides;