cmp.similarity: Compute similarity between two compounds using their...
In girke-lab/ChemmineR-release: Cheminformatics Toolkit for R
Description
Usage
Arguments
Details
Value
Author(s)
References
See Also
Examples
Description
Given descriptors for two compounds, 'cmp.similarity' returns the
similarity measure between the two compounds.
Usage
1
cmp.similarity(a, b, mode = 1, worst = 0)
Arguments
a
Descriptor of the first compound.
b
Descriptor of the second compound.
mode
Mode used when computing the distance. See details below.
worst
The worst value you are expecting. If 'cmp.similarity' finds the
upper bound of similarity is worse than it, it will return a 0 and
potentially save some computation.
Details
'cmp.similarity' uses descriptor information generated by 'cmp.parse'
and 'cmp.parse1'. Basically, a descriptor is a vector of numbers. The
vector actually reprsents the set of descriptors of structural
fragment. Similarity measurement uses Tanimoto coefficient.
'cmp.similarity' supports 3 different modes. In mode 1, normal Tanimoto
coefficient is used. In mode 2, it uses the size of descriptor
intersection over the size of the smaller descriptor, mainly to deal
with compounds that vary a lot in size. In mode 3, it is similar to
mode 2, except that it raises the similarity to the power 3 to penalize
small values. When mode is 0, 'cmp.similarity' will select mode 1 or
mode 3, based on the size differences between the two descriptors.
When 'cmp.similarity' is used in searching compounds with a threshold
similarity value, or in clustering with a cutoff distance, the
threshold similarity and cutoff distance can be used to decide a
'worse' value. 'cmp.similarity' can compute an upper bound of
similarity easier, and by comparing this upper bound to the 'worst'
value, it can potentially skip the real computation if it finds the
similarity will be below the 'worst' value and will be useless to the
caller.
Value
Return a numeric value between 0 and 1 which gives the similarity
between the two compounds.
Author(s)
Y. Eddie Cao, Li-Chang Cheng
References
Chen X and Reynolds CH (2002). "Performance of similarity measures
in 2D fragment-based similarity searching: comparison of structural descriptors
and similarity coefficients", in J Chem Inf Comput Sci.
Peter Willett (1998). "Chemical Similarity Searching", in J. Chem.
Inf. Comput. Sci.
See Also
cmp.parse1, cmp.parse,
cmp.search, cmp.cluster
Examples
1
2
3
4
5
6
7
8
9
10
11
12
13
14
## Load sample SD file
# data(sdfsample); sdfset <- sdfsample
## Generate atom pair descriptor database for searching
# apset <- sdf2ap(sdfset)
## Loads same atom pair sample data set provided by library
data(apset)
## Compute similarities among two compounds
cmp.similarity(apset[1], apset[2])
## Search apset database with a query compound
cmp.search(apset, apset[1], type=3, cutoff = 0.3)
girke-lab/ChemmineR-release documentation built on May 17, 2019, 5:26 a.m.
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Description Usage Arguments Details Value Author(s) References See Also Examples
Description
Given descriptors for two compounds, 'cmp.similarity' returns the similarity measure between the two compounds.
Usage
1 | cmp.similarity(a, b, mode = 1, worst = 0)
|
Arguments
a |
Descriptor of the first compound. |
b |
Descriptor of the second compound. |
mode |
Mode used when computing the distance. See details below. |
worst |
The worst value you are expecting. If 'cmp.similarity' finds the upper bound of similarity is worse than it, it will return a 0 and potentially save some computation. |
Details
'cmp.similarity' uses descriptor information generated by 'cmp.parse' and 'cmp.parse1'. Basically, a descriptor is a vector of numbers. The vector actually reprsents the set of descriptors of structural fragment. Similarity measurement uses Tanimoto coefficient.
'cmp.similarity' supports 3 different modes. In mode 1, normal Tanimoto coefficient is used. In mode 2, it uses the size of descriptor intersection over the size of the smaller descriptor, mainly to deal with compounds that vary a lot in size. In mode 3, it is similar to mode 2, except that it raises the similarity to the power 3 to penalize small values. When mode is 0, 'cmp.similarity' will select mode 1 or mode 3, based on the size differences between the two descriptors.
When 'cmp.similarity' is used in searching compounds with a threshold similarity value, or in clustering with a cutoff distance, the threshold similarity and cutoff distance can be used to decide a 'worse' value. 'cmp.similarity' can compute an upper bound of similarity easier, and by comparing this upper bound to the 'worst' value, it can potentially skip the real computation if it finds the similarity will be below the 'worst' value and will be useless to the caller.
Value
Return a numeric value between 0 and 1 which gives the similarity between the two compounds.
Author(s)
Y. Eddie Cao, Li-Chang Cheng
References
Chen X and Reynolds CH (2002). "Performance of similarity measures in 2D fragment-based similarity searching: comparison of structural descriptors and similarity coefficients", in J Chem Inf Comput Sci.
Peter Willett (1998). "Chemical Similarity Searching", in J. Chem. Inf. Comput. Sci.
See Also
cmp.parse1, cmp.parse,
cmp.search, cmp.cluster
Examples
1 2 3 4 5 6 7 8 9 10 11 12 13 14 | ## Load sample SD file
# data(sdfsample); sdfset <- sdfsample
## Generate atom pair descriptor database for searching
# apset <- sdf2ap(sdfset)
## Loads same atom pair sample data set provided by library
data(apset)
## Compute similarities among two compounds
cmp.similarity(apset[1], apset[2])
## Search apset database with a query compound
cmp.search(apset, apset[1], type=3, cutoff = 0.3)
|
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