Publications

Showing 2008
11.
Kahan, M; Gil, B; Adar, R; Shapiro, E 2008. Towards molecular computers that operate in a biological environment Physica D-Nonlinear Phenomena. 2008 , 237 :1165-1172.
10.
Linshiz, G; Ben Yehezkel, T; Kaplan, S; Gronau, I; Ravid, S; Adar, R; Shapiro, E 2008. Recursive construction of perfect DNA molecules from imperfect oligonucleotides Molecular Systems Biology. 2008 , 4 .
9.
Baruch, L; Itzkovitz, S; Golan-Mashiach, M; Shapiro, E; Segal, E 2008. Using Expression Profiles of Caenorhabditis elegans Neurons To Identify Genes That Mediate Synaptic Connectivity Plos Computational Biology. 2008 , 4 .
8.
Shapiro, E; Gil, B 2008. RNA computing in a living cell Science. 2008 , 322 :387-388.
7.
Ben Yehezkel, T; Linshiz, G; Buaron, H; Kaplan, S; Shabi, U; Shapiro, E 2008. De novo DNA synthesis using single molecule PCR Nucleic Acids Research. 2008 , 36 .
6.
Shapiro, EA; Pe'er, A; Ye, J; Shapiro, M 2008. Piecewise adiabatic population transfer in a molecule via a wave packet Physical Review Letters. 2008 , 101 .
5.
Frumkin, D; Wasserstrom, A; Itzkovitz, S; Harmelin, A; Rechavi, G; Shapiro, E 2008. Amplification of multiple genomic loci from single cells isolated by laser micro-dissection of tissues Bmc Biotechnology. 2008 , 8 .
4.
Wasserstrom, A; Adar, R; Shefer, G; Frumkin, D; Itzkovitz, S; Stern, T; Shur, I; Zangi, L; Kaplan, S; Harmelin, A; Reisner, Y; Benayahu, D; Tzahor, E; Segal, E; Shapiro, E 2008. Reconstruction of Cell Lineage Trees in Mice Plos One. 2008 , 3 .
3.
Frumkin, D; Wasserstrom, A; Itzkovitz, S; Stern, T; Harmelin, A; Eilam, R; Rechavi, G; Shapiro, E 2008. Cell lineage analysis of a mouse tumor Cancer Research. 2008 , 68 :5924-5931.
2.
Wasserstrom, A; Frumkin, D; Adar, R; Itzkovitz, S; Stern, T; Kaplan, S; Shefer, G; Shur, I; Zangi, L; Reizel, Y; Harmelin, A; Dor, Y; Dekel, N; Reisner, Y; Benayahu, D; Tzahor, E; Segal, E; Shapiro, E 2008. Estimating cell depth from somatic mutations Plos Computational Biology. 2008 , 4 .
1.
Itzkovitz, S; Baruch, L; Shapiro, E; Segal, E 2008. Geometric constraints on neuronal connectivity facilitate a concise synaptic adhesive code Proceedings Of The National Academy Of Sciences Of The United States Of America. 2008 , 105 :9278-9283.