Beyond Maximum Overlapping Set (BMOS) is our inventive new method for High Throughput Screening (HTS) analysis.
Using graph-based small molecule chemical similarity clustering, BMOS is able to provide high quality results equivalent to fine-grained methods on very large datasets.
BMOS solves computational roadblocks for large datasets
With BMOS you can identify important structural activity relationships, in seemingly dissimilar molecules, positively impacting your design of synthetic candidates. Importantly, BMOS has high levels of accuracy and fast job times making large dataset searching achievable.
Fine grained clustering methods such as Maximum Overlaying Set (MOS) are very useful in identifying important relationships in structural data at much lower similarity levels. However they are computationally unattainable on large data sets, typical in today’s research projects. BMOS has solved this.
BMOS (Beyond Maximum Overlapping Set) combines a maximum common substructure (MCS) approach (coarse-grained) with a maximum overlapping set (MOS) approach (fine- grained), to create a totally new method.
BMOS deals with large numbers of calculations on very large data sets, with much faster than average job times and without compromising the quality of the results. BMOS is capable of MOS clustering for 20,000 structures with smaller compute resources and 80,000 structures with larger compute resources. This is a 10 fold increase on traditional MOS clustering numbers, with negligible loss of accuracy.
BMOS has also been extended to enable fine-grained, 3D chemical similarity analysis of large scale datasets.
Our 2D graph-based chemical similarity metrics can now be augmented with 3D structure information when conformational data is provided. We do this by computing atomic RMSD comparisons for matching MOS groups, and combining these with the 2D similarity metrics using empirical penalty functions.
Validation testing has shown that the new combined 2D-3D similarity methods provide improved separation of small-molecule clusters, in even better agreement with the separation of compounds according to target class.
The latest extensions also include additional optimisation of input/output algorithms, and memory management.
BMOS is available now … Contact us now for more information or to organise a demonstration of the software
