Molecular Models of Carbohydrates

Molecular Models of Carbohydrates

D-(+)-Allose

In the following model, the carbon atoms are dark gray, hydrogen is cyan and oxygen is red. There are four chiral centers (numbered). The molecule is not shown in a conformation that reflects the Fischer projection formula, because such a structure is unstable due to crowding. The zig-zag conformation shown has staggered C-C bonds which are preferred by linear molecules of this kind. The configuration at the center farthest from the carbonyl group (C-5) determines the D or L classification. This carbon may be identified by clicking the first button below (it will be colored magenta).

^{Identify D-Designating Carbon}
^{Show Spacefill Model}
^{Show Stick Model}

End of this supplementary topic

D-(+)-Altrose

In the following model, the carbon atoms are dark gray, hydrogen is cyan and oxygen is red. There are four chiral centers (numbered). The molecule is not shown in a conformation that reflects the Fischer projection formula, because such a structure is unstable due to crowding. The zig-zag conformation shown has staggered C-C bonds which are preferred by linear molecules of this kind. The configuration at the center farthest from the carbonyl group (C-5) determines the D or L classification. This carbon may be identified by clicking the first button below (it will be colored magenta).

^{Identify D-Designating Carbon}
^{Show Spacefill Model}
^{Show Stick Model}

End of this supplementary topic

D-(+)-Glucose

In the following model, the carbon atoms are dark gray, hydrogen is cyan and oxygen is red. There are four chiral centers (numbered). The molecule is not shown in a conformation that reflects the Fischer projection formula, because such a structure is unstable due to crowding. The zig-zag conformation shown has staggered C-C bonds which are preferred by linear molecules of this kind. The configuration at the center farthest from the carbonyl group (C-5) determines the D or L classification. This carbon may be identified by clicking the first button below (it will be colored magenta).

^{Identify D-Designating Carbon}
^{Show Spacefill Model}
^{Show Stick Model}

End of this supplementary topic

D-(+)-Mannose

In the following model, the carbon atoms are dark gray, hydrogen is cyan and oxygen is red. There are four chiral centers (numbered). The molecule is not shown in a conformation that reflects the Fischer projection formula, because such a structure is unstable due to crowding. The zig-zag conformation shown has staggered C-C bonds which are preferred by linear molecules of this kind. The configuration at the center farthest from the carbonyl group (C-5) determines the D or L classification. This carbon may be identified by clicking the first button below (it will be colored magenta).

^{Identify D-Designating Carbon}
^{Show Spacefill Model}
^{Show Stick Model}

End of this supplementary topic