Patent ID: 11946096
Assignee: ILLUMINA CAMBRIDGE LIMITED
Field: Biotechnology (Chemistry)
Classification: CPC C | IPC C

Claim 0:
1. A method of preparing a first solid support for bridge amplifications of template strands of nucleic acids, comprising:
(a) predicting numbers of clusters or cluster densities on a first solid support, comprising:
(i) providing the first solid support, wherein a plurality of capture primers is immobilised on the first solid support;
(ii) hybridizing template strands of nucleic acids to at least some of said capture primers, thereby forming hybridized template strands;
(iii) obtaining labelled template strands by labelling the hybridized template;
(iv) determining the number of hybridized template strands present on the first solid support by counting images on the first solid support generated by detectable signals produced from the labelled template strands; and
(v) correlating the number of hybridized template strands present on the first solid support to a number of hybridized reference template strands present in a reference, thereby obtaining the predicted number of clusters or predicted cluster densities on the first solid support,

wherein the reference is a standard curve produced by plotting different numbers of the hybridized reference template strands present on a second solid support versus different numbers or densities of clusters on the second solid support generated by bridge amplifications of the different numbers of the hybridized reference template strands present on the second solid support;
(b) comparing the predicted number of clusters or predicted cluster densities with an optimum range of clusters or optimum cluster density expected to be obtained on the first solid support if bridge amplifications of the hybridized template strands are performed on the first solid support; and
(c) preparing the first solid support for the bridge amplifications of the template strands of the nucleic acids by adjusting the amounts of the hybridized template strands on the first solid support based on a result from step (b), wherein the adjusting step comprises
(i) removing at least a fraction of the hybridized template strands from the first solid support if the predicted number of clusters or predicted cluster densities is greater than the optimum range of clusters or optimum cluster density expected to be obtained on the first solid support or
(ii) hybridizing a further amount of the template strands of the nucleic acids to at least some of the capture primers unhybridized to the template strands of the nucleic acids on the first solid support if the predicted number of clusters or predicted cluster densities is lower than the optimum range of clusters or optimum cluster density expected to be obtained on the first solid support.