Compositions comprising meta-benzylic compounds are prepared. The compositions are useful as antibacterial and as other pharmaceutical agents and as intermediates for preparation of other pharmaceutical agents. In addition, compositions of the present invention are useful as research reagents.

A method, apparatus, and computer program, for fabricating multiple arrays arranged successively in a first direction on a substrate and each having multiple feature sets arranged successively in the first direction within the array. The method uses a head system having multiple successive sets of dispensers. In the method, the head system is advanced in the first direction over the substrate while dispensing drop sets for each array from dispenser sets so as to form the arrays. In one aspect, drop sets are dispensed in an order the reverse of that from which the dispenser sets pass over a given location on the substrate as the head system advances in the first direction. In this case, each dispenser set deposits a drop set at a distance ahead of a drop set deposited by a preceding dispenser set which is less than the distance to the successive drop dispenser set which deposits the next drop set.

Compositions comprising novel di-nitrogen heterocycle compounds containing N-(aminoalkyl) and/or N-(amidoalkyl) groups are prepared. The compounds of the present invention are useful as antibacterial and other pharmaceutical agents and as intermediates for preparation of other pharmaceutical agents. In addition, compounds of the present invention are useful as research reagents.

Compositions comprising novel di-nitrogen heterocycle compounds containing N-(aminoalkyl) and/or N-(amidoalkyl) groups are prepared. The compounds of the present invention are useful as antibacterial and other pharmaceutical agents and as intermediates for preparation of other pharmaceutical agents. In addition, compounds of the present invention are useful as research reagents.

A method to produce arrays of compounds for concurrent testing is described. Two formats are described using porous rods or porous sheet materials. In one format, the compounds of the array are immobilized onto porous rod elements. In the second format, the compounds are immobilized as lines on a sheet of porous material. In both cases, a bundle is formed by radial compression of the rods or spiral wrapping of the sheet. A sheath is applied to the bundle, and arrays are cut as slabs. Each synthesis or application step to create an array element is used to fabricate multiple arrays. Relatively high-density arrays can be produced with current printing technologies. The method is particularly suited to mass production of arrays.