The murine complement receptor gene family. IV. Alternative splicing of Cr2 gene transcripts predicts two distinct gene products that share homologous domains with both human … CB Kurtz, E O'toole, SM Christensen, JH Weis Journal of immunology (Baltimore, Md.: 1950) 144 (9), 3581-3591, 1990 | 203 | 1990 |
R2 target-primed reverse transcription: ordered cleavage and polymerization steps by protein subunits asymmetrically bound to the target DNA SM Christensen, TH Eickbush Molecular and Cellular Biology 25 (15), 6617-6628, 2005 | 107 | 2005 |
RNA from the 5′ end of the R2 retrotransposon controls R2 protein binding to and cleavage of its DNA target site SM Christensen, J Ye, TH Eickbush Proceedings of the National Academy of Sciences 103 (47), 17602-17607, 2006 | 90 | 2006 |
Nanostructures for medical diagnostics MM Bellah, SM Christensen, SM Iqbal Journal of Nanomaterials 2012, 1-21, 2012 | 69 | 2012 |
Role of the Bombyx mori R2 element N-terminal domain in the target-primed reverse transcription (TPRT) reaction SM Christensen, A Bibillo, TH Eickbush Nucleic acids research 33 (20), 6461-6468, 2005 | 64 | 2005 |
Secondary structures for 5′ regions of R2 retrotransposon RNAs reveal a novel conserved pseudoknot and regions that evolve under different constraints E Kierzek, SM Christensen, TH Eickbush, R Kierzek, DH Turner, WN Moss Journal of molecular biology 390 (3), 428-442, 2009 | 43 | 2009 |
Target Specificity of the Endonuclease from the Xenopus laevis Non-Long Terminal Repeat Retrotransposon, Tx1L S Christensen, G Pont-Kingdon, D Carroll Molecular and cellular biology 20 (4), 1219-1226, 2000 | 43 | 2000 |
Isoenergetic penta-and hexanucleotide microarray probing and chemical mapping provide a secondary structure model for an RNA element orchestrating R2 retrotransposon protein … E Kierzek, R Kierzek, WN Moss, SM Christensen, TH Eickbush, DH Turner Nucleic acids research 36 (6), 1770-1782, 2008 | 42 | 2008 |
Nectar bacteria stimulate pollen germination and bursting to enhance microbial fitness SM Christensen, I Munkres, RL Vannette Current Biology 31 (19), 4373-4380. e6, 2021 | 38 | 2021 |
Convergently recruited nuclear transport retrogenes are male biased in expression and evolving under positive selection in Drosophila C Tracy, J Río, M Motiwale, SM Christensen, E Betrán Genetics 184 (4), 1067-1076, 2010 | 28 | 2010 |
Identification of sites for distinct DNA binding proteins including Oct-1 and Oct-2 in the Cr2 gene. SM Christensen, BK Martin, SS Tan, JH Weis Journal of immunology (Baltimore, Md.: 1950) 148 (11), 3610-3617, 1992 | 26 | 1992 |
Electrical detection of single-base DNA mutation using functionalized nanoparticles MR Noor, S Goyal, SM Christensen, SM Iqbal Applied Physics Letters 95 (7), 2009 | 23 | 2009 |
Footprint of the retrotransposon R2Bm protein on its target site before and after cleavage S Christensen, TH Eickbush Journal of molecular biology 336 (5), 1035-1045, 2004 | 22 | 2004 |
Ribonucleoprotein formation by the ORF1 protein of the non-LTR retrotransposon Tx1L in Xenopus oocytes G Pont-Kingdon, E Chi, S Christensen, D Carroll Nucleic acids research 25 (15), 3088-3094, 1997 | 18 | 1997 |
Nano-scale biosensors SM Iqbal, S Goyal, SM Christensen, MR Noor US Patent 8,283,936, 2012 | 17 | 2012 |
Completion of LINE integration involves an open ‘4-way’branched DNA intermediate BB Khadgi, A Govindaraju, SM Christensen Nucleic Acids Research 47 (16), 8708-8719, 2019 | 15 | 2019 |
Independently derived targeting of 28S rDNA by A-and D-clade R2 retrotransposons: Plasticity of integration mechanism BK Thompson, SM Christensen Mobile Genetic Elements 1 (1), 29-37, 2011 | 15 | 2011 |
Comparative studies of the endonucleases from two related Xenopus laevis retrotransposons, Tx1L and Tx2L: target site specificity and evolutionary implications S Christensen, G Pont-Kingdon, D Carroll Genetica 110, 245-256, 2000 | 14 | 2000 |
Endonuclease domain of non-LTR retrotransposons: loss-of-function mutants and modeling of the R2Bm endonuclease A Govindaraju, JD Cortez, B Reveal, SM Christensen Nucleic acids research 44 (7), 3276-3287, 2016 | 13 | 2016 |
Targeting novel sites: The amino-terminal DNA binding domain of non-LTR retrotransposons is an adaptable module that is implicated in changing site specificities. H Shivram, D Cawley, SM Christensen Mobile Genetic Elements 1 (3), 169-178, 2011 | 12 | 2011 |