Difference between revisions of "Alison"

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Fingerprinting is an important tool used in forensic science and solving crimes. Latent fingerprints is one of the easiest ways to connect an individual with the crime. These types of fingerprints are created when any surface is touched and there is a transfer of a thin layer of chemical residue from the tips of your fingers. Multiple methods of lifting fingerprints are available, but chemical methods is the most effective for nonporous surfaces.<small><small>1</small></small> In this project, I am focusing on the use of ninhydrin to lift a fingerprint. Ninhydrin reacts with the proteins in the latent fingerprint and create an amino acid residue that becomes a purple color after a multi-step reaction. The ninhydrin condenses the primary amine of an amino acid, alanine in this case, to form an imine. The resulting imine decarboxylates and hydrolyzes in water to form another primary amine that condenses with a second ninhydrin molecule to form Ruhemann's purple.<small><small>2</small></small>
 
Fingerprinting is an important tool used in forensic science and solving crimes. Latent fingerprints is one of the easiest ways to connect an individual with the crime. These types of fingerprints are created when any surface is touched and there is a transfer of a thin layer of chemical residue from the tips of your fingers. Multiple methods of lifting fingerprints are available, but chemical methods is the most effective for nonporous surfaces.<small><small>1</small></small> In this project, I am focusing on the use of ninhydrin to lift a fingerprint. Ninhydrin reacts with the proteins in the latent fingerprint and create an amino acid residue that becomes a purple color after a multi-step reaction. The ninhydrin condenses the primary amine of an amino acid, alanine in this case, to form an imine. The resulting imine decarboxylates and hydrolyzes in water to form another primary amine that condenses with a second ninhydrin molecule to form Ruhemann's purple.<small><small>2</small></small>
  
[[File:1200px-L-Alanin_-_L-Alanine.svg.png|400px|Alanine|thumb|center|Alanine]] [[File:1200px-Ninhydrin.svg.png|400px|Ninhydrin|thumb|center|Ninhydrin]]
+
[[File:1200px-L-Alanin_-_L-Alanine.svg.png|200px|Alanine|thumb|center|Alanine]] [[File:1200px-Ninhydrin.svg.png|400px|Ninhydrin|thumb|center|Ninhydrin]]
  
 
===Calculations===
 
===Calculations===

Revision as of 20:09, 15 April 2021

The Ninhydrin Reaction with Alanine in Latent Fingerprints

This is an ab initio computational chemistry project and all energies of the compounds in this multi-step reaction were calculated via WebMo, using Hartree-Fock 6-31G geometry optimization.

Background

Fingerprinting is an important tool used in forensic science and solving crimes. Latent fingerprints is one of the easiest ways to connect an individual with the crime. These types of fingerprints are created when any surface is touched and there is a transfer of a thin layer of chemical residue from the tips of your fingers. Multiple methods of lifting fingerprints are available, but chemical methods is the most effective for nonporous surfaces.1 In this project, I am focusing on the use of ninhydrin to lift a fingerprint. Ninhydrin reacts with the proteins in the latent fingerprint and create an amino acid residue that becomes a purple color after a multi-step reaction. The ninhydrin condenses the primary amine of an amino acid, alanine in this case, to form an imine. The resulting imine decarboxylates and hydrolyzes in water to form another primary amine that condenses with a second ninhydrin molecule to form Ruhemann's purple.2

Alanine
Ninhydrin

Calculations

Structure Energy (Hartree) Run Time
Ninhydrin -643.27 7.3 sec
Alanine -321.77 2.1 sec
1 -889.50 27.6 sec
2 -626.84 21.3 sec
3 -548.97 10.6 sec
Acetaldehyde -152.91 0.6 sec
4 -625.77 16.7 sec
5 -1041.85 43.0 sec
5' -1117.79 50.4 sec
6 -568.77 9.7 sec
7 -568.84 9.9 sec
8 -1128.16 7 min 11 sec
9 547.69 9.7 sec
10 -567.65 4.9 sec
11 -813.39 24.3 sec
12 -625.82 14.1 sec
Ruhemann's purple, isomer 1 -1040.48 1 min 15 sec
Ruhemann's purple, isomer 2 -1040.57 1 min 1 sec
Ruhemann's purple, isomer 3 -1041.07 2 min 43 sec
Water -75.98 0.6 sec
Carbon Dioxide -185.58 0.6 sec
Ammonia -56.10 0.6 sec

Citations

1. Friesen, J.B. Forensic Chemistry: The Revelation of Latent Fingerprinting. Journal of chemical education, 2015. 92: p. 497-504. 2. Petraco et al. Amino Acid Alanine Reactivity with the Fingerprint Reagent Ninhydrin. Journal of Forensic Science, 2006. 51: 6. p. 1267-1275.