ÇI-lagl- (2 pts) Use the Fischer projection shown below for the sugar D-altrose to draw a...
Spring 2020 E. Carbohydrates Part 1: In the box, draw the Fischer projection (linear conformation) that corresponds to the Haworth projection sugar given below. Note: This sugar is a ketose. (6 pts) СН2 она to 2 но - н 3 н он ч CH,OH Р +он 5 ОН 5 Н НО а H снаби о Сн,он ОН Н Part 2: Draw the Haworth projection of the given monosaccharide as a 6-sided a-pyranose ring. (7 pts) Н. 0 / са он...
11.a) Draw the open chain (Fischer) structure of D-altrose. (1pt) (b) How many chiral centers are in D-altrose? ______ (1pt) (c) What is the maximum number of possible stereoisomers whch can exist for D-altrose? _____ (1pt) (d) Draw L-altrose in open chain form (use Fischer projection) – you may use the space above. (1pt) (e) Use the information above to draw a Haworth projection for alpha-D-altropyranose. (2pt) Ruff degradation on a monosaccharide causes C1 to be lost as carbon dioxide,...
Given the Fischer projection of the sup sugar, draw its Haworth projection (B-anomer only) Fischer Projection H Haworth Projection (B-anomer) CH, OH on CH OH 5. Identify the glycosidic linkages for the following disaccharides. Determine whether the disaccharides are reducing or non-reducing sugars. сон OH OH OH OH CHOH Снон не Он н Снон онон | CH, OH нон CH-OH
A Fischer projection of a monosaccharide is shown below: A Fischer projection of a monosaccharide is shown below: CHO H- -ОН HO -H HO -H I -OH CH2OH v to form ring. When this monosaccharide cyclizes, carbon v bonds to the oxygen on carbon Note that the numbering of the carbons begins at the top of the Fischer projection. furanose pyranose A Fischer projection of a monosaccharide is shown below: CH2OH C=0 H OH НО. -H CH OH v to...
Culhydrates 1. Complete th Complete the table by classifying each sugar sugar (A, B, C, D) below based on carbonyl group and number of carbons (c.8. aldohexose, ketotriose, etc.). Classify them as an antiomer. Indicate the number of chiral carbons for each sugar. Sugar Classification based on carbonyl group and number of carbons Lor D enantiomer Number of chiral carbons н-с-он HO-6-H. н-с-он ін,он CH,OH C=0 HO-C-H н-с-он HO-C-H. ён,он снон c=0 | HO-C-H ін,он H-C-OH CH, OH CD 2....
Select all of the descriptions that are accurate for this molecule of glucose CH2OH н с— о, н VH С он н C OH но с H Он it is a hexose it is in the alpha form it is in the beta form it is a furanse it is a pyranose it is a Haworth projection It is a Fischer projection Select all of the descriptions that are accurate for this molecule. CH-он Он Он ОН It is a...
3. (2 pts) Use the Fischer projections shown below to answer the following questions. Reference Sugar a) Which sugar is an epimer of the reference sugar? он ньон Нонн -он -он CH OH b) Which sugar is an enantiomer of the reference sugar? c) Name the reference sugar shown. 1) 2) 5) СОН сон он 9 1 HOH HO- нон } I I но- н нон нон нон CH OH Нон нон нон нон CH OH 5 + } н...
Draw the Fischer projections of the four aldotetroses. Draw the D-sugar on the left and its L-isomer directly to the right of it. Be sure you select the appropriate hydroxy group so that the bond carbon is connected to the oxygen bond. Draw D sugar 1 Draw L sugar 1 H H CH2OH Answer Bank CH2OH -OH Н но- Draw D sugar 2 Draw L sugar 2 H Answer Bank CH2OH CH-он он н Но- Draw D sugar 2 Draw...
Draw the Haworth projection structures for the B- anomer for these Fischer projections. raw Haworth projection structures for the B-anomer for these Fisch ojections CHO CHO ОН НО -Н H Н -ОН НО -Н Н -ОН CH2OH (D)-idose НО-НН НО-НН ньон снон (D)-galactose
2. Convert each sugar below to its Haworth form. Draw the alpha anomer for a, the beta for b. CH OH c=0 но-с-н HO-c-H H-C-OH a. CH OH u-u-u-u-u- III н-с-он Сн,он