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CPK coloring

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A plastic ball-and-stick model of proline. These models usually comply with CPK coloring.

In chemistry, the CPK coloring is a popular color convention for distinguishing atoms of different chemical elements in molecular models. The scheme is named after the CPK molecular models designed by chemists Robert Corey and Linus Pauling, and improved by Walter Koltun.

History

In 1952, Corey and Pauling published a description of space-filling models of proteins and other biomolecules that they had been building at Caltech.[1] Their models represented atoms by faceted hardwood balls, painted in different bright colors to indicate the respective chemical elements. Their color schema included

They also built smaller models using plastic balls with the same color schema.

In 1965 Koltun patented an improved version of the Corey and Pauling modeling technique.[2] In his patent he mentions the following colors:

  • White for hydrogen
  • Black for carbon
  • Blue for nitrogen
  • Red for oxygen
  • Deep yellow for sulfur
  • Purple for phosphorus
  • Light, medium, medium dark, and dark green for the halogens (F, Cl, Br, I)
  • Silver for metals (Co, Fe, Ni, Cu)

Typical assignments

brightly colored plastic balls with holes in them.
A box of ball-and-stick model pieces colored to represent several of the common elements.

Typical CPK color assignments include:

  hydrogen (H) white
  carbon (C) black
  nitrogen (N) dark blue
  oxygen (O) red
  fluorine (F), chlorine (Cl) green
  bromine (Br) dark red
  iodine (I) dark violet
  noble gases (He, Ne, Ar, Xe, Kr) cyan
  phosphorus (P) orange
  sulfur (S) yellow
  boron (B), most transition metals peach, salmon
  alkali metals (Li, Na, K, Rb, Cs, Fr) violet
  alkaline earth metals (Be, Mg, Ca, Sr, Ba, Ra) dark green
  titanium (Ti) gray
  iron (Fe) orange
  other elements pink

Several of the CPK colors refer mnemonically to colors of the pure elements or notable compound. For example, hydrogen is a colorless gas, carbon as charcoal or graphite is black, common sulfur is yellow, chlorine is a greenish gas, bromine is a dark red liquid, iodine in ether is violet, amorphous phosphorus is red, rust is dark orange-red, etc. For some colors, such as those of oxygen and nitrogen, the inspiration is less clear. Perhaps red for oxygen is inspired by the fact that oxygen is normally required for combustion or that the oxygen-bearing chemical in blood, hemoglobin, is bright red, and the blue for nitrogen by the fact that nitrogen is the main component of Earth's atmosphere, which appears to human eyes as being colored sky blue.

Modern variants

The following table shows colors assigned to each element by some popular software products. Column C is the original assignment by Corey and Pauling,[1] and K is that of Koltun's patent.[2] Column J is the color scheme used by the molecular visualizer Jmol.[3] Column R is the scheme used by Rasmol; when two colors are shown, the second one is valid for versions 2.7.3 and later.[3][4] All colors are approximate and may depend on the display hardware and viewing conditions.

Colors
A# Sy Element C K J R
1 H hydrogen        
1 2H (D) deuterium  
1 3H (T) tritium  
2 He helium    
3 Li lithium     
4 Be beryllium    
5 B boron    
6 C carbon         
6 13C carbon-13  
6 14C carbon-14  
7 N nitrogen         
7 15N nitrogen-15  
8 O oxygen         
9 F fluorine      
10 Ne neon    
11 Na sodium    
12 Mg magnesium    
13 Al aluminium     
14 Si silicon    
15 P phosphorus       
16 S sulfur       
17 Cl chlorine      
18 Ar argon    
19 K potassium    
20 Ca calcium     
21 Sc scandium    
22 Ti titanium     
23 V vanadium    
24 Cr chromium     
25 Mn manganese     
26 Fe iron       
27 Co cobalt      
28 Ni nickel       
29 Cu copper       
30 Zn zinc     
31 Ga gallium    
32 Ge germanium    
33 As arsenic    
34 Se selenium    
35 Br bromine       
36 Kr krypton    
37 Rb rubidium    
38 Sr strontium    
39 Y yttrium    
40 Zr zirconium    
41 Nb niobium    
42 Mo molybdenum    
43 Tc technetium    
44 Ru ruthenium    
45 Rh rhodium    
46 Pd palladium    
47 Ag silver     
48 Cd cadmium    
49 In indium    
50 Sn tin    
51 Sb antimony    
52 Te tellurium    
53 I iodine      
54 Xe xenon    
55 Cs caesium    
56 Ba barium     
57 La lanthanum    
58 Ce cerium    
59 Pr praseodymium    
60 Nd neodymium    
61 Pm promethium    
62 Sm samarium    
63 Eu europium    
64 Gd gadolinium    
65 Tb terbium    
66 Dy dysprosium    
67 Ho holmium    
68 Er erbium    
69 Tm thulium    
70 Yb ytterbium    
71 Lu lutetium    
72 Hf hafnium    
73 Ta tantalum    
74 W tungsten    
75 Re rhenium    
76 Os osmium    
77 Ir iridium    
78 Pt platinum    
79 Au gold    
80 Hg mercury    
81 Tl thallium    
82 Pb lead    
83 Bi bismuth    
84 Po polonium    
85 At astatine    
86 Rn radon    
87 Fr francium    
88 Ra radium    
89 Ac actinium    
90 Th thorium    
91 Pa protactinium    
92 U uranium    
93 Np neptunium    
94 Pu plutonium    
95 Am americium    
96 Cm curium    
97 Bk berkelium    
98 Cf californium    
99 Es einsteinium    
100 Fm fermium    
101 Md mendelevium    
102 No nobelium    
103 Lr lawrencium    
104 Rf rutherfordium    
105 Db dubnium    
106 Sg seaborgium    
107 Bh bohrium    
108 Hs hassium    
109 Mt meitnerium    
110 Ds darmstadtium  
111 Rg roentgenium  
112 Cn copernicium  
113 Nh nihonium  
114 Fl flerovium  
115 Mc moscovium  
116 Lv livermorium  
117 Ts tennessine  
118 Og oganesson  

See also

References

  1. ^ a b Robert B. Corey and Linus Pauling (1953): Molecular Models of Amino Acids, Peptides, and Proteins. Review of Scientific Instruments, Volume 24, Issue 8, pp. 621-627. doi:10.1063/1.1770803
  2. ^ a b Walter L. Koltun (1965), Space filling atomic units and connectors for molecular models. U. S. Patent 3170246.
  3. ^ a b Jmol color table at sourceforge.net. Accessed on 2010-01-28.
  4. ^ Rasmol color table at bio.cmu.edu. Accessed on 2010-01-28.