D-Net

<oaf:entity xmlns:oaf="http://namespace.openaire.eu/oaf"

    xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"

    xsi:schemaLocation="http://namespace.openaire.eu/oaf ../oaf-0.3.xsd">

    <oaf:result>

        <subject classid="keyword" classname="keyword" schemeid="dnet:result_subject"

            schemename="dnet:result_subject">Quantitative Biology - Quantitative Methods</subject>

        <subject classid="keyword" classname="keyword" schemeid="dnet:result_subject"

            schemename="dnet:result_subject">LCC:Science</subject>

        <subject classid="keyword" classname="keyword" schemeid="dnet:result_subject"

            schemename="dnet:result_subject">LCC:Q</subject>

        <subject classid="keyword" classname="keyword" schemeid="dnet:result_subject"

            schemename="dnet:result_subject">Methodology Article</subject>

        <subject classid="keyword" classname="keyword" schemeid="dnet:result_subject"

            schemename="dnet:result_subject">LCC:Biology (General)</subject>

        <subject classid="keyword" classname="keyword" schemeid="dnet:result_subject"

            schemename="dnet:result_subject">DOAJ:Biology</subject>

        <subject classid="keyword" classname="keyword" schemeid="dnet:result_subject"

            schemename="dnet:result_subject">LCC:QH301-705.5</subject>

        <subject classid="keyword" classname="keyword" schemeid="dnet:result_subject"

            schemename="dnet:result_subject">DOAJ:Biology and Life Sciences</subject>

        <title classid="main title" classname="main title" schemeid="dnet:dataCite_title"

            schemename="dnet:dataCite_title">Bayesian inference of biochemical kinetic parameters

            using the linear noise approximation</title>

        <dateofacceptance>2009-10-19</dateofacceptance>

        <publisher>BioMed Central</publisher>

        <resulttype classid="publication" classname="publication" schemeid="dnet:result_typologies"

            schemename="dnet:result_typologies"/>

        <language classid="eng" classname="English" schemeid="dnet:languages"

            schemename="dnet:languages"/>

        <journal issn="1471-2105" eissn="1471-2105" lissn="">BMC Bioinformatics</journal>

        <description>&lt;p&gt;Abstract&lt;/p&gt; &lt;p&gt;Background&lt;/p&gt; &lt;p&gt;Fluorescent and luminescent gene reporters allow us to dynamically quantify changes in molecular species concentration over time on the single cell level. The mathematical modeling of their interaction through multivariate dynamical models requires the deveopment of effective statistical methods to calibrate such models against available data. Given the prevalence of stochasticity and noise in biochemical systems inference for stochastic models is of special interest. In this paper we present a simple and computationally efficient algorithm for the estimation of biochemical kinetic parameters from gene reporter data.&lt;/p&gt; &lt;p&gt;Results&lt;/p&gt; &lt;p&gt;We use the linear noise approximation to model biochemical reactions through a stochastic dynamic model which essentially approximates a diffusion model by an ordinary differential equation model with an appropriately defined noise process. An explicit formula for the likelihood function can be derived allowing for computationally efficient parameter estimation. The proposed algorithm is embedded in a Bayesian framework and inference is performed using Markov chain Monte Carlo.&lt;/p&gt; &lt;p&gt;Conclusion&lt;/p&gt; &lt;p&gt;The major advantage of the method is that in contrast to the more established diffusion approximation based methods the computationally costly methods of data augmentation are not necessary. Our approach also allows for unobserved variables and measurement error. The application of the method to both simulated and experimental data shows that the proposed methodology provides a useful alternative to diffusion approximation based methods.&lt;/p&gt; </description>

        <source>BMC Bioinformatics, Vol 10, Iss 1, p 343 (2009)</source>

        <country classid="" classname="" schemeid="" schemename=""/>

        <relevantdate classid="" classname="" schemeid="" schemename=""/>

        <embargoenddate/>

        <fulltext/>

        <format/>

        <storagedate/>

        <resourcetype classid="" classname="" schemeid="" schemename=""/>

        <device/>

        <size/>

        <version/>

        <lastmetadataupdate/>

        <metadataversionnumber/>

        <originalId>oai:doaj.org/article:4de1e859536641a6869d7a725d99868c</originalId>

        <originalId>oai:europepmc.org:1889871</originalId>

        <originalId>oai:arXiv.org:0907.0759</originalId>

        <collectedfrom name="arXiv.org e-Print Archive"

            id="opendoar____::6f4922f45568161a8cdf4ad2299f6d23"/>

        <collectedfrom name="DOAJ-Articles" id="driver______::bee53aa31dc2cbb538c10c2b65fa5824"/>

        <collectedfrom name="Europe PubMed Central"

            id="opendoar____::8b6dd7db9af49e67306feb59a8bdc52c"/>

        <pid classid="doi" classname="doi" schemeid="dnet:pid_types" schemename="dnet:pid_types"

            >10.1186/1471-2105-10-343</pid>

        <pid classid="oai" classname="oai" schemeid="dnet:pid_types" schemename="dnet:pid_types"

            >oai:doaj.org/article:4de1e859536641a6869d7a725d99868c</pid>

        <pid classid="oai" classname="oai" schemeid="dnet:pid_types" schemename="dnet:pid_types"

            >oai:europepmc.org:1889871</pid>

        <pid classid="oai" classname="oai" schemeid="dnet:pid_types" schemename="dnet:pid_types"

            >oai:arXiv.org:0907.0759</pid>

        <pid classid="pmc" classname="pmc" schemeid="dnet:pid_types" schemename="dnet:pid_types"

            >PMC2774326</pid>

        <pid classid="pmid" classname="pmid" schemeid="dnet:pid_types" schemename="dnet:pid_types"

            >19840370</pid>

        <bestlicense classid="OPEN" classname="Open Access" schemeid="dnet:access_modes"

            schemename="dnet:access_modes"/>

        <context id="WT" label="Wellcome Trust" type="funding">

            <category id="WT::UNKNOWN" label="UNKNOWN"/>

            <category id="WT::Physiological Sciences" label="Physiological Sciences"/>

        </context>

        <datainfo>

            <inferred>true</inferred>

            <deletedbyinference>false</deletedbyinference>

            <trust>0.9</trust>

            <inferenceprovenance>dedup-similarity-result</inferenceprovenance>

            <provenanceaction classid="sysimport:dedup" classname="sysimport:dedup"

                schemeid="dnet:provenanceActions" schemename="dnet:provenanceActions"/>

        </datainfo>

        <rels>

            <rel inferred="true" trust="0.9" inferenceprovenance=""

                provenanceaction="sysimport:crosswalk:repository">

                <to class="hasAuthor" scheme="dnet:personroles" type="person">doajarticles::ca4753db9feca61b453dbb362c35b342</to>

                <ranking>2</ranking>

                <fullname>Komorowski Michał</fullname>

            </rel>

            <rel inferred="true" trust="0.9" inferenceprovenance=""

                provenanceaction="sysimport:crosswalk:repository">

                <to class="hasAuthor" scheme="dnet:personroles" type="person">doajarticles::a07265fa744e66e9c5ec7b77c0851f89</to>

                <ranking>4</ranking>

                <fullname>Rand David A</fullname>

            </rel>

            <rel inferred="true" trust="0.9" inferenceprovenance=""

                provenanceaction="sysimport:crosswalk:repository">

                <to class="hasAuthor" scheme="dnet:personroles" type="person">doajarticles::e1cad832939799d3048e316c22782174</to>

                <ranking>1</ranking>

                <fullname>Finkenstädt Bärbel</fullname>

            </rel>

            <rel inferred="true" trust="0.9" inferenceprovenance=""

                provenanceaction="sysimport:crosswalk:repository">

                <to class="hasAuthor" scheme="dnet:personroles" type="person">doajarticles::381604e57032b94c4848b4f74f746d8e</to>

                <ranking>3</ranking>

                <fullname>Harper Claire V</fullname>

            </rel>

            <rel inferred="true" trust="0.5204"

                inferenceprovenance="iis::document_referencedProjects" provenanceaction="iis">

                <to class="isProducedBy" scheme="dnet:result_project_relations" type="project">wt__________::faa5036a74ad4f433adcf94213f14cf2</to>

                <code>067252</code>

                <title>Temporal analysis of the dynamic regulation of pituitary gene

                    transcription</title>

                <contracttype classid="UNKNOWN" classname="UNKNOWN" schemeid="wt:contractTypes"

                    schemename="wt:contractTypes"/>

                <funding>

                    <funder id="wt__________::WT" shortname="WT" name="Wellcome Trust" jurisdiction=""/>

                    <funding_level_0 name="UNKNOWN">wt__________::WT::UNKNOWN</funding_level_0>

                </funding>

                <funding>

                    <funder id="wt__________::WT" shortname="WT" name="Wellcome Trust" jurisdiction=""/>

                    <funding_level_0 name="Physiological Sciences">wt__________::WT::Physiological Sciences</funding_level_0>

                </funding>

            </rel>

        </rels>

        <children>

            <result objidentifier="od_______908::90480162796c1e13413196f4953ca48b">

                <title classid="main title" classname="main title" schemeid="dnet:dataCite_title"

                    schemename="dnet:dataCite_title">Bayesian inference of biochemical kinetic

                    parameters using the linear noise approximation</title>

                <dateofacceptance>2009-10-19</dateofacceptance>

                <publisher>BioMed Central</publisher>

                <resulttype classid="publication" classname="publication"

                    schemeid="dnet:result_typologies" schemename="dnet:result_typologies"/>

            </result>

            <result objidentifier="doajarticles::643498150c9bd71324c792d706be816b">

                <title classid="main title" classname="main title" schemeid="dnet:dataCite_title"

                    schemename="dnet:dataCite_title">Bayesian inference of biochemical kinetic

                    parameters using the linear noise approximation</title>

                <dateofacceptance>2009-10-01</dateofacceptance>

                <publisher>BioMed Central</publisher>

                <resulttype classid="publication" classname="publication"

                    schemeid="dnet:result_typologies" schemename="dnet:result_typologies"/>

            </result>

            <result objidentifier="od________18::d2ecb52c4d75555a71641851fbe10469">

                <title classid="main title" classname="main title" schemeid="dnet:dataCite_title"

                    schemename="dnet:dataCite_title">Bayesian inference of biochemical kinetic

                    parameters using the linear noise approximation</title>

                <dateofacceptance>2009-07-04</dateofacceptance>

                <resulttype classid="publication" classname="publication"

                    schemeid="dnet:result_typologies" schemename="dnet:result_typologies"/>

            </result>

            <instance id="doajarticles::20b2f3960b47b21ab9e0396cc5fcf17c">

                <licence classid="OPEN" classname="Open Access" schemeid="dnet:access_modes"

                    schemename="dnet:access_modes"/>

                <instancetype classid="0001" classname="Article"

                    schemeid="dnet:publication_resource" schemename="dnet:publication_resource"/>

                <hostedby name="BMC Bioinformatics"

                    id="doajarticles::20b2f3960b47b21ab9e0396cc5fcf17c"/>

                <webresource>

                    <url>http://www.biomedcentral.com/1471-2105/10/343</url>

                </webresource>

            </instance>

            <instance id="opendoar____::6f4922f45568161a8cdf4ad2299f6d23">

                <licence classid="OPEN" classname="Open Access" schemeid="dnet:access_modes"

                    schemename="dnet:access_modes"/>

                <instancetype classid="0001" classname="Article"

                    schemeid="dnet:publication_resource" schemename="dnet:publication_resource"/>

                <hostedby name="arXiv.org e-Print Archive"

                    id="opendoar____::6f4922f45568161a8cdf4ad2299f6d23"/>

                <webresource>

                    <url>http://arxiv.org/abs/0907.0759</url>

                </webresource>

            </instance>

            <instance id="opendoar____::8b6dd7db9af49e67306feb59a8bdc52c">

                <licence classid="OPEN" classname="Open Access" schemeid="dnet:access_modes"

                    schemename="dnet:access_modes"/>

                <instancetype classid="0001" classname="Article"

                    schemeid="dnet:publication_resource" schemename="dnet:publication_resource"/>

                <hostedby name="Europe PubMed Central"

                    id="opendoar____::8b6dd7db9af49e67306feb59a8bdc52c"/>

                <webresource>

                    <url>http://europepmc.org/articles/PMC2774326</url>

                </webresource>

            </instance>

        </children>

    </oaf:result>

    <extraInfo name="result citations" typology="citations"

        provenance="iis::document_referencedDocuments" trust="0.9">

        <citations>

            <citation>

                <rawText>Arnold, L. Stochastic differential equations: theory and applications.

                    1974</rawText>

            </citation>

            <citation>

                <rawText>Boys, R, Wilkinson, D, Kirkwood, T. Bayesian inference for a discretely

                    observed stochastic kinetic model. Statistics and Computing. 2008; 18:

                    125-135</rawText>

                <id value="10.1007/s11222-007-9043-x" type="doi" confidenceLevel="0.9"/>

            </citation>

            <citation>

                <rawText>Brockwell, P, Davis, R. Introduction to time series and forecasting.

                    2002</rawText>

            </citation>

            <citation>

                <rawText>Chabot, JR, Pedraza, JM, Luitel, P, van Oudenaarden, A. Stochastic gene

                    expression out-of-steady-state in the cyanobacterial circadian clock. Nature.

                    2007; 450: 1249-1252</rawText>

                <id value="10.1038/nature06395" type="doi" confidenceLevel="0.9"/>

                <id value="18097413" type="pmid" confidenceLevel="0.9"/>

            </citation>

            <citation>

                <rawText>Ehrenberg, M, Elf, J, Aurell, E, Sandberg, R, Tegner, J. Systems Biology Is

                    Taking Off. Genome Res. 2003; 13: 2377-2380</rawText>

                <id value="10.1101/gr.1763203" type="doi" confidenceLevel="0.9"/>

                <id value="14597651" type="pmid" confidenceLevel="0.9"/>

            </citation>

            <citation>

                <rawText>Elerian, O, Chib, S, Shephard, N. Likelihood Inference for Discretely

                    Observed Nonlinear Diffusions. Econometrica. 2001; 69: 959-993</rawText>

                <id value="od______1064::ba631a861f25a49798eed0620f742da0" type="openaire"

                    confidenceLevel="0.9"/>

                <id value="10.1111/1468-0262.00226" type="doi" confidenceLevel="0.9"/>

            </citation>

            <citation>

                <rawText>Elf, J, Ehrenberg, M. Fast Evaluation of Fluctuations in Biochemical

                    Networks With the Linear Noise Approximation. Genome Res. 2003; 13:

                    2475-2484</rawText>

                <id value="od_______908::5057209ac7dedd8429360b60cf93581e" type="openaire"

                    confidenceLevel="0.6926765"/>

                <id value="10.1101/gr.1196503" type="doi" confidenceLevel="0.9"/>

                <id value="14597656" type="pmid" confidenceLevel="0.9"/>

            </citation>

            <citation>

                <rawText>Elowitz, MB, Levine, AJ, Siggia, ED, Swain, PS. Stochastic Gene Expression

                    in a Single Cell. Science. 2002; 297: 1183-1186</rawText>

                <id value="10.1126/science.1070919" type="doi" confidenceLevel="0.9"/>

                <id value="12183631" type="pmid" confidenceLevel="0.9"/>

            </citation>

            <citation>

                <rawText>Esposito, W, Floudas, C. Global Optimization for the Parameter Estimation

                    of Differential-Algebraic Systems. Industrial and Engineering Chemistry

                    Research. 2000; 39: 1291-1310</rawText>

                <id value="10.1021/ie990486w" type="doi" confidenceLevel="0.9"/>

            </citation>

            <citation>

                <rawText>Finkenstadt, B, Heron, E, Komorowski, M, Edwards, K, Tang, S, Harper, C,

                    Davis, J, White, M, Millar, A, Rand, D. Reconstruction of transcriptional

                    dynamics from gene reporter data using differential equations. Bioinformatics.

                    2008; 24: 2901</rawText>

                <id value="od_______908::348882911439599f593863df21547c10" type="openaire"

                    confidenceLevel="0.9"/>

                <id value="10.1093/bioinformatics/btn562" type="doi" confidenceLevel="0.9"/>

                <id value="18974172" type="pmid" confidenceLevel="0.9"/>

            </citation>

            <citation>

                <rawText>Gamerman, D, Lopes, HF. Markov Chain Monte Carlo Stochastic Simulation for

                    Bayesian Inference. 2006</rawText>

            </citation>

            <citation>

                <rawText>Gillespie, DT. A Rigorous Derivation of the Chemical Master Equation.

                    Physica A. 1992; 188: 404-425</rawText>

                <id value="10.1016/0378-4371(92)90283-V" type="doi" confidenceLevel="0.9"/>

            </citation>

            <citation>

                <rawText>Gillespie, DT. Exact stochastic simulation of coupled chemical reactions.

                    Journal of Physical Chemistry. 1977; 81: 2340-2361</rawText>

                <id value="10.1021/j100540a008" type="doi" confidenceLevel="0.9"/>

            </citation>

            <citation>

                <rawText>Golightly, A, Wilkinson, DJ. Bayesian Inference for Stochastic Kinetic

                    Models Using a Diffusion Approximation. Biometrics. 2005; 61: 781-788</rawText>

                <id value="10.1111/j.1541-0420.2005.00345.x" type="doi" confidenceLevel="0.9"/>

                <id value="16135029" type="pmid" confidenceLevel="0.9"/>

            </citation>

            <citation>

                <rawText>Guptasarma, P. Does replication-induced transcription regulate synthesis of

                    the myriad low copy number proteins of Escherichia coli?. Bioessays. 1995; 17:

                    987-97</rawText>

                <id value="10.1002/bies.950171112" type="doi" confidenceLevel="0.9"/>

                <id value="8526893" type="pmid" confidenceLevel="0.9"/>

            </citation>

            <citation>

                <rawText>Heron, EA, Finkenstadt, B, Rand, DA. Bayesian inference for dynamic

                    transcriptional regulation; the Hes1 system as a case study. Bioinformatics.

                    2007; 23: 2596-2603</rawText>

                <id value="10.1093/bioinformatics/btm367" type="doi" confidenceLevel="0.9"/>

                <id value="17660527" type="pmid" confidenceLevel="0.9"/>

            </citation>

            <citation>

                <rawText>Keizer, J. Statistical Thermodynamics of Nonequilibrium Processes.

                    1987</rawText>

            </citation>

            <citation>

                <rawText>Komorowski, M, Miekisz, J, Kierzek, A. Translational Repression Contributes

                    Greater Noise to Gene Expression than Transcriptional Repression. Biophysical

                    Journal. 2009; 96</rawText>

                <id value="od_______908::da7be790cb1f273103b2af89666f52d7" type="openaire"

                    confidenceLevel="0.68115807"/>

                <id value="10.1016/j.bpj.2008.09.052" type="doi" confidenceLevel="0.9"/>

                <id value="19167290" type="pmid" confidenceLevel="0.9"/>

            </citation>

            <citation>

                <rawText>Kurtz, TG. The Relationship between Stochastic and Deterministic Models for

                    Chemical Reactions. The Journal of Chemical Physics. 1972; 57:

                    2976-2978</rawText>

                <id value="10.1063/1.1678692" type="doi" confidenceLevel="0.9"/>

            </citation>

            <citation>

                <rawText>Lars, F, Per, L, Andreas, H. A Hierarchy of Approximations of the Master

                    Equation Scaled by a Size Parameter. Journal of Scientific Computing. 2007; 34:

                    127-151</rawText>

            </citation>

            <citation>

                <rawText>Mendes, P, Kell, D. Non-linear optimization of biochemical pathways:

                    applications to metabolic engineering and parameter estimation. Bioinformatics.

                    1998; 14: 869-883</rawText>

                <id value="10.1093/bioinformatics/14.10.869" type="doi" confidenceLevel="0.9"/>

                <id value="9927716" type="pmid" confidenceLevel="0.9"/>

            </citation>

            <citation>

                <rawText>Moles, CG, Mendes, P, Banga, JR. Parameter Estimation in Biochemical

                    Pathways: A Comparison of Global Optimization Methods. Genome Res. 2003; 13:

                    2467-2474</rawText>

                <id value="od_______908::47751c2ff7092807aaa7c1be5cd5f156" type="openaire"

                    confidenceLevel="0.6541027"/>

                <id value="10.1101/gr.1262503" type="doi" confidenceLevel="0.9"/>

                <id value="14559783" type="pmid" confidenceLevel="0.9"/>

            </citation>

            <citation>

                <rawText>Nelson, DE, Ihekwaba, AEC, Elliott, M, Johnson, JR, Gibney, CA.

                    Oscillations in NF-kappaB Signaling Control the Dynamics of Gene Expression.

                    Science. 2004; 306: 704-708</rawText>

                <id value="10.1126/science.1099962" type="doi" confidenceLevel="0.9"/>

                <id value="15499023" type="pmid" confidenceLevel="0.9"/>

            </citation>

            <citation>

                <rawText>Oksendal, B. Stochastic differential equations: an introduction with

                    applications. 1992</rawText>

            </citation>

            <citation>

                <rawText>Ramsay, JO, Hooker, G, Campbell, D, Cao, J. Parameter estimation for

                    differential equations: a generalized smoothing approach. Journal of the Royal

                    Statistical Society: Series B (Statistical Methodology). 2007; 69:

                    741-796</rawText>

                <id value="10.1111/j.1467-9868.2007.00610.x" type="doi" confidenceLevel="0.9"/>

            </citation>

            <citation>

                <rawText>Raser, JM, O'Shea, EK. Noise in Gene Expression: Origins, Consequences, and

                    Control. Science. 2005; 309: 2010-2013</rawText>

                <id value="od_______908::32d9b440f18aadeadf0d7522e6cc30f9" type="openaire"

                    confidenceLevel="0.62900084"/>

                <id value="10.1126/science.1105891" type="doi" confidenceLevel="0.9"/>

                <id value="16179466" type="pmid" confidenceLevel="0.9"/>

            </citation>

            <citation>

                <rawText>Reinker, S, Altman, R, Timmer, J. Parameter estimation in stochastic

                    biochemical reactions. Systems Biology, IEE Proceedings. 2006; 153:

                    168-178</rawText>

                <id value="10.1049/ip-syb:20050105" type="doi" confidenceLevel="0.9"/>

            </citation>

            <citation>

                <rawText>Ronen, M, Rosenberg, R, Shraiman, BI, Alon, U. Assigning numbers to the

                    arrows: Parameterizing a gene regulation network by using accurate expression

                    kinetics. Proceedings of the National Academy of Sciences of the United States

                    of America. 2002; 99: 10555-10560</rawText>

                <id value="od_______908::7d30f75068e0e1e4134f1be54edf5185" type="openaire"

                    confidenceLevel="0.67833227"/>

                <id value="10.1073/pnas.152046799" type="doi" confidenceLevel="0.9"/>

                <id value="12145321" type="pmid" confidenceLevel="0.9"/>

            </citation>

            <citation>

                <rawText>Ryota, T, Hidenori, K, J, KT, Kazuyuki, A. Multivariate analysis of noise

                    in genetic regulatory networks. Journal of Theoretical Biology. 2004; 229:

                    501-521</rawText>

                <id value="10.1016/j.jtbi.2004.04.034" type="doi" confidenceLevel="0.9"/>

                <id value="15246787" type="pmid" confidenceLevel="0.9"/>

            </citation>

            <citation>

                <rawText>Thattai, M, van Oudenaarden, A. Intrinsic noise in gene regulatory

                    networks. Proceedings of the National Academy of Sciences. 2001</rawText>

                <id value="od_______908::d4e97aa76e8e0df45be8cd7a042777d5" type="openaire"

                    confidenceLevel="0.69023263"/>

            </citation>

            <citation>

                <rawText>Tian, T, Xu, S, Gao, J, Burrage, K. Simulated maximum likelihood method for

                    estimating kinetic rates in gene expression. Bioinformatics. 2007; 23:

                    84</rawText>

                <id value="10.1093/bioinformatics/btl552" type="doi" confidenceLevel="0.9"/>

                <id value="17068087" type="pmid" confidenceLevel="0.9"/>

            </citation>

            <citation>

                <rawText>Van Kampen, N. Stochastic Processes in Physics and Chemistry North Holland.

                    2006</rawText>

            </citation>

            <citation>

                <rawText>Wilkinson, D. Stochastic modelling for quantitative description of

                    heterogeneous biological systems. Nature Reviews Genetics. 2009; 10:

                    122-133</rawText>

                <id value="10.1038/nrg2509" type="doi" confidenceLevel="0.9"/>

                <id value="19139763" type="pmid" confidenceLevel="0.9"/>

            </citation>

            <citation>

                <rawText>Wu, JQ, Pollard, TD. Counting Cytokinesis Proteins Globally and Locally in

                    Fission Yeast. Science. 2005; 310: 310-314</rawText>

                <id value="10.1126/science.1113230" type="doi" confidenceLevel="0.9"/>

                <id value="16224022" type="pmid" confidenceLevel="0.9"/>

            </citation>

            <citation>

                <rawText>Xie, SX, Choi, PJ, Li, GW, Lee, NK, Lia, G. Single-Molecule Approach to

                    Molecular Biology in Living Bacterial Cells. Annual Review of Biophysics. 2008;

                    37: 417-444</rawText>

                <id value="10.1146/annurev.biophys.37.092607.174640" type="doi"

                    confidenceLevel="0.9"/>

                <id value="18573089" type="pmid" confidenceLevel="0.9"/>

            </citation>

        </citations>

    </extraInfo>

</oaf:entity>