<HTML> <HEAD> <TITLE>Fluorene Degradation Pathway Map</TITLE> </HEAD> <BODY BGCOLOR="#FFFFFF"> <CENTER><H1>Fluorene Degradation Pathway Map</H1></CENTER> <CENTER><B>[<A HREF="/servlets/pageservlet?ptype=p&pathway_abbr=flu">Compounds and Reactions</A>] [<A HREF="../index.html">BBD Main Menu</A>]</B></CENTER> <HR>This pathway was contributed by <B>Dr. Anna Maria Solanas</B>, University of Barcelona, completed by <B>Jingfeng Feng</B>, University of Minnesota, and up-dated by <b>Carla Essenberg</b> and <b>Lynda Ellis</b>, University of Minnesota. <P>Fluorene, a tricyclic aromatic hydrocarbon, contains a five-membered ring. It is a major component of fossil fuels and their derivatives and is also a byproduct of coal-conversion and energy-related industries. It is commonly found in vehicle exhaust emissions, crude oils, motor oils, coal and oil combustion products, waste incineration, and industrial effluents. Fluorene is one of the compounds on the EPA Priority Pollutants List</A>. This naphthenoaromatic compound bears structural relationships to other chemicals of concern (carbazoles, dibenzothiophenes, dibenzofurans, and dibenzodioxins) and is thus a useful model for biodegradation studies. <P>The chemical structure of fluorene, including aromatic and alicyclic moieties, offers a variety of possibilities for biochemical attack. Two pathways for fluorene metabolism in <I>Arthrobacter </I>sp. strain F101 were suggested by <A HREF="http://www.ncbi.nlm.nih.gov/pubmed/9055403">Casellas et al., 1997</A>. Compounds in brackets were not identified but postulated based on other experiments. A nonproductive route, initiated by monooxygenation at C-9, leads to the accumulation of 9-fluorenone. An alternative pathway is initiated by dioxygenation at C-1, C-2 or at C-3, C-4. The corresponding <I>cis-</I>dihydrodiols undergo dehydrogenation and then meta-cleavage which is catalyzed by an extradiol dioxygenase. After the aldolase reaction and decarboxylation of the fission product, the resulting indanones are substrates for a biological Baeyer-Villiger reaction, yielding the aromatic lactones 3-isochromanone and 3,4-dihydrocoumarin. 1-Indanone also appears to be a substrate for aromatic hydroxylation yielding 3-hydroxy-1-indanone, probably a dead-end product. Arene dioxygenases have been reported to act as monooxygenases hydroxylating methylene groups (<A HREF="http://www.ncbi.nlm.nih.gov/pubmed/3365392">Wackett et al., 1988</A>). <p> Another pathway, observed in <i>Sphingomonas</i> sp. LB126, <i>Brevibacterium</i> sp. DPO1361, and <i>Pseudomonas</i> sp. F274, was reported by <a href="http://www.ncbi.nlm.nih.gov/pubmed/11766961">Wattiau et. al, 2001</a>. In this pathway, fluorene is converted to phthalic acid and 2-hydroxypenta-2,4-dienoate by way of 9-fluorenone and a biphenyl intermediate. <p> Other organisms which can metabolize fluorene include <I>Pseudomonas</I> sp. strain NCIB 9816/11 (<A HREF="http://www.ncbi.nlm.nih.gov/pubmed/8899998">Resnick et al., 1996</A>), <i>Pseudomonas cepacia</a></i> F297 (<a href="http://www.ncbi.nlm.nih.gov/pubmed/7487007">Grifoll et al., 1995</a>), and <I>Staphylococcus auricularis</I></A> strain DBF63 (<A HREF="http://www.ncbi.nlm.nih.gov/pubmed/8439154">Monna et al., 1993</A>). Naphthalene dioxygenase, the enzyme which initiates fluorene metabolism in Ps. strain NCIB 9816/11, is used in a biotechnological process to synthesize the blue jean dye indigo. This versatile enzyme has many other catalytic abilities, which are documented in a table of the <a href="../naph/ndo.html">Reactions of Naphthalene 1,2-Dioxygenase</a>. <P>The following is a text-format fluorene pathway map. Some organisms which can initiate the pathway are given, but other organisms may also carry out some later steps. Follow the links for more information on compounds or reactions. <PRE> |------------<a href="../flu/flu_image_map1.html">Graphical Map (20K)</a>-----------|------------<a href="../flu/flu_image_map2.html">Graphical Map (13K)</a>-----------|-----<a href="../flu/flu_image_map1.html">Graphical Map (20K)</a>-----| <A HREF="/servlets/pageservlet?ptype=c&compID=c0388">Fluorene</A> <A HREF="/servlets/pageservlet?ptype=c&compID=c0388">Fluorene</A> <A HREF="/servlets/pageservlet?ptype=c&compID=c0388">Fluorene</A> <A HREF="/servlets/pageservlet?ptype=c&compID=c0388">Fluorene</A> <I>Arthrobacter</I> sp. F101 <I>Pseudomonas</I> sp. NCIB 9816/11 <I>Arthrobacter </I>sp. F101 <I>Arthrobacter</I> sp. F101 | <i>Pseudomonas cepacia</a></i> F297 <I>Staphylococcus auricularis</A></I> DBF63 | | | | <i>Sphingomonas</i> sp. LB126 | | | | <i>Brevibacterium</i> sp. DPO1361 | | | | <i>Pseudomonas</i> sp. F274 | | | | | | | <A HREF="/servlets/pageservlet?ptype=r&reacID=r0411">NDO</A> | |<A HREF="/servlets/pageservlet?ptype=r&reacID=r0662">naphthalene</A> | | | | |<A HREF="/servlets/pageservlet?ptype=r&reacID=r0662">1,2-dioxygenase</A> | | | | |(<A HREF="/servlets/pageservlet?ptype=r&reacID=r0662">NDO</A>) | | | | +--------------------------+ | | | V | | | V <A HREF="/servlets/pageservlet?ptype=r&reacID=r0412">A</A> <A HREF="/servlets/pageservlet?ptype=c&compID=c0405">(+)-(3S,4R)-cis-</A> | | <A HREF="/servlets/pageservlet?ptype=r&reacID=r0407">fluorene</A> V <A HREF="/servlets/pageservlet?ptype=r&reacID=r0421">E </A> | <A HREF="/servlets/pageservlet?ptype=c&compID=c0405">3,4-Dihydroxy-</A> | | <A HREF="/servlets/pageservlet?ptype=r&reacID=r0407">oxygenase</A> | | <A HREF="/servlets/pageservlet?ptype=c&compID=c0405">3,4-dihydrofluorene</A> | | | | | | | | | | <A HREF="/servlets/pageservlet?ptype=r&reacID=r1043">3,4-dihydroxy-</A> | | | | | <A HREF="/servlets/pageservlet?ptype=r&reacID=r1043">3,4-dihydrofluorene</A> | | | | | <A HREF="/servlets/pageservlet?ptype=r&reacID=r1043">dehydrogenase</A> | | | V | V V V [<A HREF="/servlets/pageservlet?ptype=c&compID=c0392">3,4-Dihydroxyfluorene</A>] &lt;------+ <A HREF="/servlets/pageservlet?ptype=c&compID=c0389">9-Fluorenol</A> [<A HREF="/servlets/pageservlet?ptype=c&compID=c0399">1,2-Dihydroxyfluorene</A>] | | | | <A HREF="/servlets/pageservlet?ptype=r&reacID=r0415">3,4-dihydroxyfluorene</A> | | <A HREF="/servlets/pageservlet?ptype=r&reacID=r0422">1,2-dihydroxy- </A> | <A HREF="/servlets/pageservlet?ptype=r&reacID=r0415">4,4a-dioxygenase</A> | <A HREF="/servlets/pageservlet?ptype=r&reacID=r0408">9-fluorenol</A> | <A HREF="/servlets/pageservlet?ptype=r&reacID=r0422">fluorene </A> | | <A HREF="/servlets/pageservlet?ptype=r&reacID=r0408">dehydrogenase</A> | <A HREF="/servlets/pageservlet?ptype=r&reacID=r0422">1,1a-dioxygenase </A> V | | [<A HREF="/servlets/pageservlet?ptype=c&compID=c0393">2-Hydroxy-4-(1-oxo-1,3-</A> | V <A HREF="/servlets/pageservlet?ptype=c&compID=c0393">dihydro-2H-inden-2-ylidene)-</A> V [<A HREF="/servlets/pageservlet?ptype=c&compID=c0400">2-Hydroxy-4-(2-oxo-1,3- </A> <A HREF="/servlets/pageservlet?ptype=c&compID=c0393">but-2-enoate</A>] +-----------------------<A HREF="/servlets/pageservlet?ptype=c&compID=c0390">9-Fluorenone</A> <A HREF="/servlets/pageservlet?ptype=c&compID=c0400">dihydro-2H-inden-1-ylidene)- </A> | | | <A HREF="/servlets/pageservlet?ptype=c&compID=c0400">but-2-enoic acid]</A> | <A HREF="/servlets/pageservlet?ptype=r&reacID=r0413">2-hydroxy-4-(1-oxo-</A> | | | | <a href="/servlets/pageservlet?ptype=r&reacID=r0413">1,3-dihydro-2H-inden-</a> | <A HREF="/servlets/pageservlet?ptype=r&reacID=r1039">9-fluorenone</A> | <A HREF="/servlets/pageservlet?ptype=r&reacID=r0409">9-fluorenone</A> | <A HREF="/servlets/pageservlet?ptype=r&reacID=r0420">2-hydroxy-4-(2-oxo-</A> | <a href="/servlets/pageservlet?ptype=r&reacID=r0413">-2-ylidene)-but-2-</a> | <A HREF="/servlets/pageservlet?ptype=r&reacID=r1039">3,4-dioxygenase</A> | <A HREF="/servlets/pageservlet?ptype=r&reacID=r0409">dioxygenase</A> | <a href="/servlets/pageservlet?ptype=r&reacID=r0420">1,3-dihydro-2H-inden-</a> | <a href="/servlets/pageservlet?ptype=r&reacID=r0413">enoate hydratase</a> | | | <a href="/servlets/pageservlet?ptype=r&reacID=r0420">-1-ylidene)-but-2-</a> | | | | <a href="/servlets/pageservlet?ptype=r&reacID=r0420">enoate hydratase</a> V V V V <A HREF="/servlets/pageservlet?ptype=c&compID=c0394">2-Formyl-1-indanone</A> <A HREF="/servlets/pageservlet?ptype=c&compID=c0916">1-Hydro-1,1a-dihydroxy-</A> [<A HREF="/servlets/pageservlet?ptype=c&compID=c0404">(3S,4R)-3,4-Dihydroxy-3,4-</A> <A HREF="/servlets/pageservlet?ptype=c&compID=c0401">1-Formyl-2-indanone</A> | <A HREF="/servlets/pageservlet?ptype=c&compID=c0916">9-fluorenone</A> <A HREF="/servlets/pageservlet?ptype=c&compID=c0404">dihydro-9-fluorenone</A>] | | | | | | | <A HREF="/servlets/pageservlet?ptype=r&reacID=r1040">1-hydro-1,1a-</A> | | V <A HREF="/servlets/pageservlet?ptype=r&reacID=r0414">C</A> | <A HREF="/servlets/pageservlet?ptype=r&reacID=r1040">dihydroxy-</A> | <A HREF="/servlets/pageservlet?ptype=r&reacID=r0410">I</A> V <A HREF="/servlets/pageservlet?ptype=r&reacID=r0423">G </A> | | <A HREF="/servlets/pageservlet?ptype=r&reacID=r1040">9-fluorenone</A> | | | | <A HREF="/servlets/pageservlet?ptype=r&reacID=r1040">dehydrogenase</A> | | V V V V +------------<A HREF="/servlets/pageservlet?ptype=c&compID=c0395">1-Indanone</A> <A HREF="/servlets/pageservlet?ptype=c&compID=c0917">2,3-Dihydroxy-</A> <A HREF="/servlets/pageservlet?ptype=c&compID=c0391">4-Hydroxy-9-fluorenone</A> <A HREF="/servlets/pageservlet?ptype=c&compID=c0402">2-Indanone</A> | | <A HREF="/servlets/pageservlet?ptype=c&compID=c0917">2'-carboxybiphenyl</A> | | | | | | | | <A HREF="/servlets/pageservlet?ptype=r&reacID=r1041">2,3-dihydroxy-</A> | | <A HREF="/servlets/pageservlet?ptype=r&reacID=r0416">1-indanone</A> | <A HREF="/servlets/pageservlet?ptype=r&reacID=r0417">1-indanone</A> | <A HREF="/servlets/pageservlet?ptype=r&reacID=r1041">2'-carboxybiphenyl</A> | <A HREF="/servlets/pageservlet?ptype=r&reacID=r0424">2-indanone</A> | <A HREF="/servlets/pageservlet?ptype=r&reacID=r0416">dioxygenase</A> | <A HREF="/servlets/pageservlet?ptype=r&reacID=r0417">monooxygenase</A> | <A HREF="/servlets/pageservlet?ptype=r&reacID=r1041">1,2-dioxygenase</A> | <A HREF="/servlets/pageservlet?ptype=r&reacID=r0424">monooxygenase</A> V | | | <A HREF="/servlets/pageservlet?ptype=c&compID=c0396">3-Hydroxy-</A> | | | <A HREF="/servlets/pageservlet?ptype=c&compID=c0396">1-indanone</A> | V | V <A HREF="/servlets/pageservlet?ptype=c&compID=c0918">2-Hydroxy-6-oxo-6-</A> V <A HREF="/servlets/pageservlet?ptype=c&compID=c0397">3,4-Dihydrocoumarin</A> <A HREF="/servlets/pageservlet?ptype=c&compID=c0918">(2-carboxyphenyl)-</A> <A HREF="/servlets/pageservlet?ptype=c&compID=c0403">3-Isochromanone</A> | <A HREF="/servlets/pageservlet?ptype=c&compID=c0918">hexa-2,4-dienoate</A> | | | | | <A HREF="/servlets/pageservlet?ptype=r&reacID=r0419">3,4-dihydro-</A> | <A HREF="/servlets/pageservlet?ptype=r&reacID=r1042">2-hydroxy-6-oxo-6-</A> | | <A HREF="/servlets/pageservlet?ptype=r&reacID=r0419">coumarin</A> | <A HREF="/servlets/pageservlet?ptype=r&reacID=r1042">(2-carboxyphenyl)-</A> V <A HREF="/servlets/pageservlet?ptype=r&reacID=r0425">H</A> | <A HREF="/servlets/pageservlet?ptype=r&reacID=r0419">hydrolase</A> | <A HREF="/servlets/pageservlet?ptype=r&reacID=r1042">hexa-2,4-dienoate</A> | | | <A HREF="/servlets/pageservlet?ptype=r&reacID=r1042">hydrolase</A> | | | | V V V <A HREF="/servlets/pageservlet?ptype=c&compID=c0398">3-(2-Hydroxyphenyl)-</A> <A HREF="/servlets/pageservlet?ptype=c&compID=c0181">Phthalate</A> + <A HREF="/servlets/pageservlet?ptype=c&compID=c0102"><i>cis</i>-2-Hydroxypenta-</A> <A HREF="/servlets/pageservlet?ptype=c&compID=c0097">Catechol</A> <A HREF="/servlets/pageservlet?ptype=c&compID=c0398">propionate</A> | <A HREF="/servlets/pageservlet?ptype=c&compID=c0102">2,4-dienoate</A> | | | | | | | | | V <A HREF="/servlets/pageservlet?ptype=r&reacID=r0418">D</A> | | | | | | | | V V V V to the to the <a href="http://www.genome.jp/kegg-bin/show_pathway?map00362+C00090">Intermediary</a> <A HREF="/servlets/pageservlet?ptype=c&compID=c0043">Salicylate</A> <a href="../pth/pth_map.html">Phthalate Family</a> <a href="../cbp/cbp_map.html">4-Chlorobiphenyl</a> <a href="http://www.genome.jp/kegg-bin/show_pathway?map00362+C00090">Metabolism</a> | <a href="../pth/pth_map.html">Pathway</a> <a href="../cbp/cbp_map.html">Pathway</a> <a href="http://www.genome.jp/kegg-bin/show_pathway?map00362+C00090">(KEGG)</a> | | V to the <A HREF="../naph/naph_map.html">Naphthalene </A> <A HREF="../naph/naph_map.html">Pathway</A></PRE> <HR> <CENTER><B>[<A HREF="/servlets/pageservlet?ptype=p&pathway_abbr=flu">Compounds and Reactions</A>] [<A HREF="../index.html">BBD Main Menu</A>]</B></CENTER> <P>Page Author(s): Jingfeng Feng and Carla Essenberg <script src="/predict/marvin-js/lib/jquery-3.2.1.min.js"></script> <script> var url = "/servlets/pathway_dlm.jsp?pathway="+document.URL; $.get( url, function( data ) { $('#lm').html('Pathway last modified: '+data); }); </script> <div id='lm'></div> <a href="/contact.html">Contact Us</a> <pre> &copy; 2024, <a href="http://www.eawag.ch/index_EN">EAWAG</a>. 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