Chiral and Achiral Molecules

Key Questions

• Why is the study of chiral molecules important in biochemistry?

  Because organisms may react differently to stereo-isomers.

  Whenever there are asymmetric atoms in a molecule, there is the possibility of stereo-isomers. The simplest form are mirror images of each other, like a pair of gloves.

  Most organisms are 'keyed' to processing only one of these forms, and that is the form that usually occurs as the only one in nature, because they are also produced by (other) organisms.

  Chemical synthesis of compounds very often produces an mixture of both forms, called a racemic mixture, where only one form is effective, and the other form is not used or may even do damage.

  One example of a chiral molecule is glucose, that naturally only occurs in the so-called right-hand variety, called D-glucose or dextrose (dexter=Latin for right). It is possible to make L-glucose (its mirror-image) by chemical synthesis.
  The human body cannot use L-glucose. It tasts just as sweet, but no calories can be gained from it. It will be secreted by the kidneys, where it may do some damage in the long term, or part of it may cause fermentation in the intestines (flatulence).

  A more notorious example is thalidomide (aka softenon and other names), prescribed in the 50s and early 60s for pregnant women to deal with morning sickness (a.o.). The laboratory stuff that was tested contained only one stereo-isomer, but the industrial product also contained the other one, which led to great deformities in newborn babies.

  MeneerNask · 5 · Jan 3 2015
• What are chiral and achiral molecules?

  

  A molecule is considered chiral if there exists another molecule that is of identical composition but which is arranged in a non-superposable mirror image. Also the presence of an asymmetric carbon atom is often the feature that causes chirality in molecules.

  

  Two mirror images of a chiral molecule are called enantiomers or optical isomers. Pairs of enantiomers are often designated as "right-" and "left-handed".

  

  Molecular chirality is of interest because of its application to stereochemistry in inorganic chemistry, organic chemistry, physical chemistry, biochemistry, and supramolecular chemistry.

  Deevona · 4 · Apr 17 2015
• How can I identify chiral and achiral molecules?

  Look for #sp^3# carbons; those tend to be the most prevalent indications of chirality or achirality. You can ignore many #sp^2# alkene carbons.

  Note that only after examining a potential chiral carbon can you determine any achirality it actually has.

  After you determine what atoms are stereocenters, if there is an even number of stereocenters, check whether or not the molecule has a symmetry axis dividing down the middle of the stereocenters.

  If so, you might have a meso isomer, in which case the molecule as a whole is NOT chiral.

  Here is an example of identifying stereocenters in detail:
  http://socratic.org/questions/can-someone-please-explain-this-to-me-how-to-identify-the-stereo-centers-as-well

  

  Can you see that carbons 5, 6, 9, 13, and 14 are stereocenters? Can you identify which configuration they are?

  When you figure it out, check out the link above and see what they actually are.

  Truong-Son N. · 1 · Nov 23 2015

• How can I identify chiral and achiral molecules?
• What are chiral and achiral molecules?
• Why is the study of chiral molecules important in biochemistry?
• Which of the following has an achiral stereoisomer: 2,3-dichlorobutane; 2,3-dichloropentane; 2,3-dichloro-2,3-dimethylbutane; 1,3-dichlorocyclopentane; 1,3-dibromocyclobutane?
• How can I draw all the isomers with molecular formula #C_6H_12# ? (that contain a cyclobutane ring and there are seven) and how can I Identify chiral compounds and achiral compounds?
• How can I draw a chiral isomer of 1,2-dibromocyclobutane?
• Why do chiral molecules rotate polarized light?
• Why are chiral molecules optically active?
• Why are amino acids chiral?
• How can I draw the structures of all the geometric isomers of #[Ru(H_2O)_2(NH_3)_2Cl_2]^+# . What are the mirror images of any of these chiral molecules?
• What are optical isomers? Give me an example
• What are linkage isomers? Give me an example
• What are coordination isomers? Give me an example
• What are structural isomers? Give me an example
• What are stereoisomers? Give me an example
• How can I draw two achiral isomers of 3,4,5-trimethylheptane?
• How can I draw all possible stereoisomers for 2-bromo-4-chlorohexane?
• How many carbon atoms would be in the simplest chiral alkane?
• Question #9e5de
• What is the phenomenon of chirality as it applies to carbon chemistry? How did it arise? And what are the consequences of such chirality?
• Why is vanillin achiral?
• Why is glycine achiral?
• Why is chirality important?
• Why is butanone achiral?
• Why is butane achiral?
• Why is aspirin achiral?
• What is an achiral molecule?
• What is an example of an achiral compound?
• What is an achiral carbon atom?
• What is an achiral carbon?
• What is an achiral assay?
• What are achiral and chiral?
• What does achiral mean?
• How can you tell if a molecule is achiral?
• Is glycine achiral?
• How does chirality effect nmr?
• How does a chiral molecule differ from an achiral molecule?
• How is chirality related to amino acids?
• How can you determine whether a molecule is achiral or chiral?
• How can you identify achiral molecules?
• What is achiral in organic chemistry?
• Why is chirality important in biological molecules?
• Why is chirality important in drug synthesis?
• Why is chirality important in organic chemistry?
• Why is chirality important in pharmaceuticals?
• Which of the following molecules is chiral? How is this determined?
• What is a chiral atom?
• Which molecules are achiral and chiral?
• Which of the following molecules are chiral and which are achiral?
• How can you tell the chirality of a Carbon in a compound?
• What is the function of chiral compounds in medicine?
• Can a compound be achiral even if it does have a chiral center?
• Where is the chiral carbon located on thalidomide?
• Question #3d213
• Which group contains a chiral carbon? #A.# #"1-bromopropane"#. #B.# #"2-bromopropane"#. #C.# #H_3C−CH_2CHBrCH_2CH_3#. #D.# #"cyclohexyl bromide"#
• Question #7c641
• How do a pair of enantiomers differ?
• Question #70b52
• Are compounds that contain asymmetric carbons ALWAYS optically active?
• What stereochemistry results from the addition of one equiv of bromine to the #"1-methylcyclohexene"#?
• How many chiral centres in the following molecule?