@article{VolkowWangFowlerEtAl04,
	title = {Evidence that methylphenidate enhances the saliency of a mathematical
	task by increasing dopamine in the human brain.},
	author = {Nora D Volkow and Gene-Jack Wang and Joanna S Fowler and Frank Telang and Laurence Maynard and Jean Logan and Samuel J Gatley and Naomi Pappas and Christopher Wong and Paul Vaska and Wei Zhu and James M Swanson},
	journal = {Am J Psychiatry},
	month = {Jul},
	number = {7},
	pages = {1173--1180},
	volume = {161},
	year = {2004},
	biburl = {http://www.bibsonomy.org/bibtex/2ba742081234b048bb6b4627b72044611/brian.mingus},
	description = {CCNLab BibTeX},
	timestamp = {2006.02.28}, pmid = {15229048}, owner = {frankmj},
	keywords = {15229048 AIDS Adult, Aged, Analysis, Animals, Attention Attention, Azetidines, Brain, Central Cerebellum, Clearance Comparative Complex, Corpus D2, Deficit Dementia Disorder Dopamine Dopamine, Drug Emission-Computed, Evaluation, Factors, Female, Fibers, Fluorine Glycoproteins, Gov't, H.S., HIV, Humans, Hyperactivity, Load, Male, Mathematics, Membrane Metabolic Methylphenidate, Middle Modulators, Motivation, Myelinated, Nerve Nervous Nicotinic, Non-P. Non-U. P. Papio, Performance Placebos, Plasma Positron-Emission Preclinical, Predictive Problem Proteins, RNA, Raclopride, Radioactive Radioisotopes, Rate, Receptors, Reproducibility Research Results, Reward, S. Solving, Stimulants, Striatum, Study, Support, System Task Tests, Time Tissue Tomography, Tracers, Transport U. Value Viral Viral, and of with }
}

@article{Huang:2003aa,
	title = {PCAP: a whole-genome assembly program},
	author = {Xiaoqiu Huang and Jianmin Wang and Srinivas Aluru and Shiaw-Pyng Yang and LaDeana Hillier},
	journal = {Genome Res},
	month = {Sep},
	number = {9},
	pages = {2164--70},
	volume = {13},
	year = {2003},
	biburl = {http://www.bibsonomy.org/bibtex/2e2924e542de58d497e99b128d8659faa/dzerbino},
	abstract = {We describe a whole-genome assembly program named PCAP for processing tens of millions of reads. The PCAP program has several features to address efficiency and accuracy issues in assembly. Multiple processors are used to perform most time-consuming computations in assembly. A more sensitive method is used to avoid missing overlaps caused by sequencing errors. Repetitive regions of reads are detected on the basis of many overlaps with other reads, instead of many shorter word matches with other reads. Contaminated end regions of reads are identified and removed. Generation of a consensus sequence for a contig is based on an alignment of reads in the contig, in which both base quality values and coverage information are used to determine every consensus base. The PCAP program was tested on a mouse whole-genome data set of 30 million reads and a human Chromosome 20 data set of 1.7 million reads. The program is freely available for academic use.},
	doi = {10.1101/gr.1390403}, local-url = {file://localhost/Users/danielzerbino/Documents/Papers/2003/Huang/Genome%20Res%202003%20Huang.pdf}, language = {English}, issue = {9}, pii = {13/9/2164}, pmid = {12952883}, uri = {papers://055852FE-1648-42FE-91D0-8CA474D2B905/Paper/p27}, affiliation = {Department of Computer Science Iowa State University, Ames, Iowa 50011-1040, USA. xqhuang@cs.iastate.edu},
	keywords = {Algorithms, Alignment, Animals, Biology, Computational Contig Genome, Humans Mapping, Mice, Sequence Software, }
}