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專案下載:GO.zip

檔案:frame.js

  function switchTo(pExpObj) {
    var slotTables = document.all("slotTable")
    var slotExps   = document.all("slotExp");
    for (slotIdx=0; slotIdx<slotExps.length; slotIdx++) {
       var tableObj= slotTables[slotIdx];
       var expObj  = slotExps[slotIdx];
       if (expObj == pExpObj)
         tableObj.style.display = "";
       else
         tableObj.style.display = "none";
    }
    pExpObj.focus();
  }
 
  function fillValue(slotIdx, checkObj, fill, keys)
  {
    var slotExp  = document.all("slotExp")[slotIdx];
    var slotKeys = document.all("slotKeys")[slotIdx];
    if (checkObj.checked) {
      if (slotExp.value.indexOf(fill) < 0)
        slotExp.value  = trim(fill+" "+slotExp.value);
      if (slotKeys.value.indexOf(keys) < 0)
        slotKeys.value = keys+" "+slotKeys.value;
    }
    else {
      slotExp.value  = trim(slotExp.value.replace(fill, ""));
      slotKeys.value = slotKeys.value.replace(keys, "");
    }
    slotExp.focus();
  }
 
  function doQuery() {
    command = makeCommand();
    document.all("showCommand").innerText=command;
    document.all("command").value = command;
    return true;
  }  
 
  function makeCommand() {
    var showPath = document.all("showPath").value;
    var sortPath = document.all("sortBy").value;;
    var sortOrder= document.all("order").value;
    var query    = document.all("query").value;
    var slotExp  = document.all("slotExp");
    var slotKeys=document.all("slotKeys");
    var slotPath = document.all("slotPath");
    var queryExp = "%"+query;
    for (slotIdx=0; slotIdx<slotExp.length; slotIdx++) {
      var path  = slotPath[slotIdx].value;
      exp  = trim(slotExp[slotIdx].value);
      keys = trim(slotKeys[slotIdx].value);
      if (keys.length > 0) {
          if (keys.indexOf(exp) >= 0)
          exp = keys;
        else
          exp = exp+"+"+keys;
      }
      exp = replaceAll(exp, " ", "+");
      exp = replaceAll(exp, ",", "+");
      if (exp.length > 0)
        queryExp  = queryExp+";"+path+"%"+exp;
    }
    command = "<query>"+showPath+";"+queryExp+"</query><sortBy>"+sortPath+"</sortBy><order>"+sortOrder+"</order>";
    return command;
  }  
 
  function trim(pStr) {
    pStr = pStr.replace('\t', ' ');
    pStr = pStr.replace('\r', ' ');
    pStr = pStr.replace('\n', ' ');
    while (pStr.charAt(0)==' ')
      pStr = pStr.substr(1);
    while (pStr.length > 0 && pStr.charAt(pStr.length-1)==' ')
      pStr = pStr.substr(0, pStr.length-1);
    return pStr;
  }
 
  function replaceAll(pStr, fromPat, toPat) {
    while (true) {
      rzStr = pStr.replace(fromPat, toPat);
      if (rzStr == pStr)
        break;
      pStr = rzStr;
    }
    return rzStr;
  }

檔案:frame.xsl

<?xml version="1.0" encoding="big5"?>
<xsl:stylesheet xmlns:xsl="http://www.w3.org/1999/XSL/Transform" version="1.0">
<xsl:template match="/frame">
<xsl:variable name="language" select="@language"/>
<HTML>
<head>
<STYLE>
 BODY  {font-size:16px;}
 DIV   {margin-left:10px;font-size:16px;}
 SPAN  {margin-top:10px;font-size:16px;}
 .MENU {margin:0;font-size:16px;}
 .MENU_INPUT {style="width:80px;border:1px;}
 TABLE {color:white;background-color:#3366cc;font-size:16px;}
 INPUT {font-size:16px;}
 SELECT {font-size:16px;}
</STYLE>
<SCRIPT TYPE="text/javascript" LANGUAGE="javascript" SRC="frame.js"></SCRIPT>
</head>
<BODY leftMargin="0" topMargin="0" style="">
<!-- main query box -->
<FORM method="post" onsubmit="JavaScript:return doQuery();"> <!--action="XQueryer.jsp"-->
<xsl:attribute name="action"><xsl:value-of select="@submitTo"/></xsl:attribute>
<TABLE width="100%" style="background-color:#3366cc;"><TR>
<TD></TD>
<TD width="55%" align="right">
  <INPUT type="text"   id="query"   style="width:200"/>
  <INPUT type="hidden" id="command" name="command"/>
  <INPUT type="hidden" id="showPath" name="showPath">
    <xsl:attribute name="value"><xsl:value-of select="@showPath"/></xsl:attribute>
  </INPUT>
  <INPUT type="hidden" id="db" name="db">
    <xsl:attribute name="value"><xsl:value-of select="@database"/></xsl:attribute>
  </INPUT>
  <span style="width:10"/>
  <INPUT type="submit" value="Submit"/>
  <span style="width:5"/>
  <INPUT type="reset"/>
</TD>
<TD width="40%" align="right" style="color:white;">
  SortBy :
  <SELECT id="sortBy" name="sortBy" style="width:100px">
    <OPTION value=""></OPTION>
    <xsl:for-each select="//*[@sortable='yes']">
      <OPTION>
        <xsl:attribute name="value"><xsl:value-of select="@path"/></xsl:attribute>
        <xsl:value-of select="@slot"/>
      </OPTION>
    </xsl:for-each>
  </SELECT>
  <SELECT id="order" name="order">
    <OPTION value="descrease"> - </OPTION>
    <OPTION value="increase">  + </OPTION>
  </SELECT>
</TD></TR></TABLE>
<TABLE width="100%" style="background-color:#3366cc;"><TR><TD>
<xsl:for-each select="//*[@menu='yes']">
   <span class="MENU" style="width:190px;">
     <input style="width:100px;color:white;border:0;background-color:#3366cc;text-align:right" type="text">
       <xsl:attribute name="value"><xsl:value-of select="@slot"/></xsl:attribute>
     </input>
     <span class="MENU" style="width:5px"/>
     <input id="slotExp"  type="text" style="width:80px;background-color:#3366ee;border:1px;color:yellow;" onFocus="JavaScript:switchTo(this);"/>
     <input id="slotKeys" type="hidden"/>
     <input id="slotPath" type="hidden">
       <xsl:attribute name="value"><xsl:value-of select="@path"/></xsl:attribute>
     </input>
   </span>
</xsl:for-each>
</TD></TR></TABLE>
<xsl:for-each select="//*[@menu='yes']">
  <table id="slotTable" width="100%" style="display:none;background-color:#ffffff;"><tr><td valign="top">
  <xsl:variable name="slotID" select="position()-1"></xsl:variable>
  <xsl:for-each select=".//*[@value!='']">
    <span style="width:160px;height:40px;color:brown;vertical-align:top;">
      <input type="checkbox">
        <xsl:attribute name="onclick">
          JavaScript:fillValue(<xsl:value-of select="$slotID"/>, this, '<xsl:value-of select="@value"/>', '<xsl:value-of select="@keys"/>');
        </xsl:attribute>
      </input>
      <xsl:value-of select="@value"/>
      <BR/>
      <xsl:if test="@image!=''">
        <img>
          <xsl:attribute name="src">picture/<xsl:value-of select="@image"/></xsl:attribute>
        </img>
      </xsl:if>
    </span>
  </xsl:for-each>
  </td></tr>
  <tr><td>
    <xsl:for-each select=".//hit">
      <li><xsl:value-of select="."/></li>
    </xsl:for-each>
  </td></tr>
  </table>
</xsl:for-each>
<!-- all slot query box -->
</FORM>
<div id="showCommand" style="font-size:12px;color:#525252"></div>
</BODY>
</HTML>
</xsl:template>
</xsl:stylesheet>

檔案:goSlotTree.xml

<?xml version="1.0" encoding="big5"?>
<?xml:stylesheet type="text/xsl" href="frame.xsl"?>
<frame showPath="">
<s slot="go:go" path="\go:go" menu="yes">
 
 <v value="org"/>
 <v value="dtd"/>
 
  <hit>&amp;lt;go:go xmlns:go=&amp;quot;http://www.geneontology.org/dtds/go.dtd#&amp;quot; xmlns:rdf=&amp;quot;http://www.w3.org/1999/02/22-rdf-syntax-ns#&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;/go:go&amp;gt;</hit>
</s>
<s slot="go:term" path="\go:go\rdf:RDF\go:term" menu="yes">
 
 <v value="org"/>
 <v value="geneontology"/>
 <v value="gene"/>
 
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0003673&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;/go:term&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0003674&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:partof&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0015643&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:isa&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0015644&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0008435&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0016172&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0016173&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0016209&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0045174&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0004362&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0004791&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0016329&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0016506&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0016505&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0008189&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0005488&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0016597&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0016595&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0016594&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0009374&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0005509&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0005514&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0030246&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0030247&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0030248&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0008061&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0005529&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0005534&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0005531&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0016936&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0005536&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0030395&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0005530&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0001577&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0005532&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0005533&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0005537&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0016168&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0042314&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0016169&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0008144&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0019811&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0016018&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0005527&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0005528&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0030051&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0008145&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0016596&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0005542&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0005539&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0008201&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0005540&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0005505&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0005507&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0005508&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0005506&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0008199&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0008198&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0020037&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0030145&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0045340&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0030151&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0016151&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0008270&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0019840&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0005501&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0009387&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0030039&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0003690&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0000739&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0003691&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0000150&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0009009&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0009037&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0003692&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0008327&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0003693&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0003694&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0003695&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0000182&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0003696&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0003697&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0042162&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0003720&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0003721&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0000332&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0045152&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0016987&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0016988&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0016989&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0003715&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0003716&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0003717&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0003718&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0016563&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0042156&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
  <hit>&amp;lt;go:term rdf:about=&amp;quot;http://www.geneontology.org/go#GO:0016564&amp;quot; n_associations=&amp;quot;0&amp;quot;&amp;gt;</hit>
</s>
<s slot="go:database_symbol" path="\go:go\rdf:RDF\go:term\go:dbxref\go:database_symbol\text()" menu="yes">
 
 <v value="role"/>
 <v value="funcat"/>
 <v value="TIGR"/>
 <v value="MIPS"/>
 <v value="InterPro"/>
 <v value="GenProtEC"/>
 
  <hit>InterPro</hit>
  <hit>SP_KW</hit>
  <hit>EC</hit>
  <hit>TIGR_role</hit>
  <hit>GenProtEC</hit>
  <hit>MIPS_funcat</hit>
  <hit>EGAD</hit>
  <hit>TC</hit>
</s>
<s slot="go:reference" path="\go:go\rdf:RDF\go:term\go:dbxref\go:reference\text()" menu="yes">
 
 <v value="viral"/>
 <v value="type"/>
 <v value="transposition"/>
 <v value="transporter"/>
 <v value="transport"/>
 <v value="trans"/>
 <v value="synthesis"/>
 <v value="proteins"/>
 <v value="protein"/>
 <v value="porter"/>
 <v value="polymerase"/>
 <v value="poly"/>
 <v value="per"/>
 <v value="nuclease"/>
 <v value="life"/>
 <v value="ion"/>
 <v value="family"/>
 <v value="factors"/>
 <v value="factor"/>
 <v value="directed"/>
 <v value="cycle"/>
 <v value="carrier"/>
 <v value="carboxyl"/>
 <v value="biotin"/>
 <v value="binding"/>
 <v value="bind"/>
 <v value="Transport"/>
 <v value="Superfamily"/>
 <v value="RNA"/>
 <v value="IPR"/>
 <v value="DNA"/>
 <v value="BCCP"/>
 <v value="Ars"/>
 <v value="ATPase"/>
 <v value="ATP"/>
 <v value="ABC"/>
 
  <hit>IPR002389</hit>
  <hit>IPR002390</hit>
  <hit>IPR002392</hit>
  <hit>Antifreeze protein</hit>
  <hit>IPR006013</hit>
  <hit>Antioxidant</hit>
  <hit>1.8.5.1</hit>
  <hit>1.6.4.2</hit>
  <hit>1.8.1.9</hit>
  <hit>IPR005982</hit>
  <hit>IPR000712</hit>
  <hit>IPR001315</hit>
  <hit>IPR001875</hit>
  <hit>IPR002475</hit>
  <hit>IPR003093</hit>
  <hit>IPR003103</hit>
  <hit>IPR003508</hit>
  <hit>IPR004725</hit>
  <hit>IPR001370</hit>
  <hit>IPR002924</hit>
  <hit>IPR003429</hit>
  <hit>18070 147 Transport and binding proteins Other &amp;gt; GO:transporter ; GO:0005215</hit>
  <hit>18080 141 Transport and binding proteins Unknown substrate &amp;gt; GO:transporter ; GO:0005215</hit>
  <hit>IPR000463</hit>
  <hit>IPR001519</hit>
  <hit>IPR001993</hit>
  <hit>IPR002024</hit>
  <hit>IPR002030</hit>
  <hit>IPR002067</hit>
  <hit>IPR002157</hit>
  <hit>IPR002167</hit>
  <hit>IPR003057</hit>
  <hit>IPR003087</hit>
  <hit>IPR004173</hit>
  <hit>IPR006127</hit>
  <hit>IPR002912</hit>
  <hit>IPR006130</hit>
  <hit>IPR006131</hit>
  <hit>1.6.15.3 biotin carboxyl carrier protein (BCCP)&amp;gt; biotin carboxyl carrier protein (BCCP)</hit>
  <hit>IPR001882</hit>
  <hit>Annexin</hit>
  <hit>Calcium-binding</hit>
  <hit>IPR000233</hit>
  <hit>IPR000294</hit>
  <hit>IPR000545</hit>
  <hit>IPR000853</hit>
  <hit>IPR001125</hit>
  <hit>IPR001211</hit>
  <hit>IPR001299</hit>
  <hit>IPR001343</hit>
  <hit>IPR001382</hit>
  <hit>IPR001393</hit>
  <hit>IPR001464</hit>
  <hit>IPR001580</hit>
  <hit>IPR001751</hit>
  <hit>IPR001881</hit>
  <hit>IPR002048</hit>
  <hit>IPR002126</hit>
  <hit>IPR002134</hit>
  <hit>IPR002388</hit>
  <hit>IPR002391</hit>
  <hit>IPR002393</hit>
  <hit>IPR003299</hit>
  <hit>IPR003355</hit>
  <hit>IPR003367</hit>
  <hit>IPR003915</hit>
  <hit>IPR003966</hit>
  <hit>IPR003610</hit>
  <hit>IPR004866</hit>
  <hit>IPR005084</hit>
  <hit>IPR005310</hit>
  <hit>IPR005323</hit>
  <hit>Chitin-binding</hit>
  <hit>IPR001002</hit>
  <hit>IPR002557</hit>
  <hit>IPR000922</hit>
  <hit>IPR001304</hit>
  <hit>IPR001347</hit>
  <hit>IPR001480</hit>
  <hit>Galaptin</hit>
  <hit>IPR001079</hit>
  <hit>IPR005052</hit>
  <hit>Lectin</hit>
  <hit>Mannose-binding</hit>
  <hit>Folate-binding</hit>
  <hit>IPR002666</hit>
  <hit>IPR004227</hit>
  <hit>IPR004258</hit>
  <hit>Heparin-binding</hit>
  <hit>Hyaluronic acid</hit>
  <hit>IPR000538</hit>
  <hit>IPR000006</hit>
  <hit>IPR000347</hit>
  <hit>IPR000815</hit>
  <hit>IPR001008</hit>
  <hit>IPR001052</hit>
  <hit>IPR001189</hit>
  <hit>IPR001396</hit>
  <hit>IPR001424</hit>
  <hit>IPR002045</hit>
</s>
<s slot="go:definition" path="\go:go\rdf:RDF\go:term\go:definition\text()" menu="yes">
 
 <v value="zinc"/>
 <v value="yeast"/>
 <v value="within"/>
 <v value="while"/>
 <v value="which"/>
 <v value="virus"/>
 <v value="viral"/>
 <v value="uses"/>
 <v value="used"/>
 <v value="use"/>
 <v value="unusual"/>
 <v value="unique"/>
 <v value="undergoes"/>
 <v value="undergo"/>
 <v value="typically"/>
 <v value="types"/>
 <v value="type"/>
 <v value="two"/>
 <v value="tubulin"/>
 <v value="triple"/>
 <v value="trap"/>
 <v value="transport"/>
 <v value="transfer"/>
 <v value="transcription"/>
 <v value="transcriptase"/>
 <v value="trans"/>
 <v value="toxin"/>
 <v value="time"/>
 <v value="three"/>
 <v value="their"/>
 <v value="than"/>
 <v value="tetrapyrrole"/>
 <v value="termed"/>
 <v value="template"/>
 <v value="telomeric"/>
 <v value="telomerase"/>
 <v value="target"/>
 <v value="tRNA"/>
 <v value="synthesis"/>
 <v value="sulfur"/>
 <v value="sugar"/>
 <v value="such"/>
 <v value="subunit"/>
 <v value="substances"/>
 <v value="substance"/>
 <v value="subfamily"/>
 <v value="subfamilies"/>
 <v value="structure"/>
 <v value="structurally"/>
 <v value="stranded"/>
 <v value="strand"/>
 <v value="stops"/>
 <v value="stoichiometrically"/>
 <v value="stoichiometric"/>
 <v value="sterol"/>
 <v value="steroid"/>
 <v value="step"/>
 <v value="specific"/>
 <v value="species"/>
 <v value="some"/>
 <v value="sodium"/>
 <v value="snRNA"/>
 <v value="small"/>
 <v value="sites"/>
 <v value="site"/>
 <v value="single"/>
 <v value="similar"/>
 <v value="signals"/>
 <v value="signal"/>
 <v value="sigma"/>
 <v value="short"/>
 <v value="several"/>
 <v value="sequences"/>
 <v value="sequence"/>
 <v value="selectively"/>
 <v value="selective"/>
 <v value="second"/>
 <v value="role"/>
 <v value="ring"/>
 <v value="ribosome"/>
 <v value="ribosomal"/>
 <v value="reverse"/>
 <v value="retroviral"/>
 <v value="reticulum"/>
 <v value="replication"/>
 <v value="released"/>
 <v value="release"/>
 <v value="related"/>
 <v value="regulation"/>
 <v value="reduces"/>
 <v value="reduced"/>
 <v value="recognition"/>
 <v value="reaction"/>
 <v value="rate"/>
 <v value="protozoa"/>
 <v value="proteins"/>
 <v value="protein"/>
 <v value="prokaryotic"/>
 <v value="products"/>
 <v value="product"/>
 <v value="process"/>
 <v value="prevents"/>
 <v value="presence"/>
 <v value="potential"/>
 <v value="potassium"/>
 <v value="positive"/>
 <v value="porphyrin"/>
 <v value="polysaccharide"/>
 <v value="polypeptide"/>
 <v value="polymerase"/>
 <v value="poly"/>
 <v value="polar"/>
 <v value="plasma"/>
 <v value="plants"/>
 <v value="plant"/>
 <v value="photosynthetic"/>
 <v value="phosphorylation"/>
 <v value="phosphorylated"/>
 <v value="phosphodiester"/>
 <v value="phosphate"/>
 <v value="pheromone"/>
 <v value="per"/>
 <v value="peptidyl"/>
 <v value="peptide"/>
 <v value="particle"/>
 <v value="part"/>
 <v value="pairing"/>
 <v value="pair"/>
 <v value="oxygen"/>
 <v value="oxidized"/>
 <v value="out"/>
 <v value="other"/>
 <v value="organism"/>
 <v value="organic"/>
 <v value="org"/>
 <v value="only"/>
 <v value="one"/>
 <v value="oligosaccharide"/>
 <v value="often"/>
 <v value="occurs"/>
 <v value="nucleotide"/>
 <v value="nucleic"/>
 <v value="nuclear"/>
 <v value="not"/>
 <v value="nor"/>
 <v value="nonpolar"/>
 <v value="non"/>
 <v value="nickel"/>
 <v value="new"/>
 <v value="more"/>
 <v value="monomeric"/>
 <v value="mono"/>
 <v value="molecule"/>
 <v value="modulates"/>
 <v value="milk"/>
 <v value="methylated"/>
 <v value="methyl"/>
 <v value="metals"/>
 <v value="metal"/>
 <v value="membrane"/>
 <v value="maltose"/>
 <v value="magnesium"/>
 <v value="linkages"/>
 <v value="leucine"/>
 <v value="lead"/>
 <v value="lactose"/>
 <v value="kDa"/>
 <v value="its"/>
 <v value="iron"/>
 <v value="ions"/>
 <v value="ion"/>
 <v value="involved"/>
 <v value="involve"/>
 <v value="into"/>
 <v value="internal"/>
 <v value="initiation"/>
 <v value="inhibit"/>
 <v value="influx"/>
 <v value="induced"/>
 <v value="increases"/>
 <v value="including"/>
 <v value="import"/>
 <v value="hydroxysteroid"/>
 <v value="hydroxyprosta"/>
 <v value="hydroxy"/>
 <v value="hydrolyzed"/>
 <v value="hydrolysis"/>
 <v value="heme"/>
 <v value="held"/>
 <v value="heavy"/>
 <v value="growth"/>
 <v value="group"/>
 <v value="green"/>
 <v value="glutathione"/>
 <v value="glucose"/>
 <v value="genome"/>
 <v value="gene"/>
 <v value="galactose"/>
 <v value="fungi"/>
 <v value="function"/>
 <v value="from"/>
 <v value="frequency"/>
 <v value="free"/>
 <v value="found"/>
 <v value="formation"/>
 <v value="form"/>
 <v value="first"/>
 <v value="ferredoxin"/>
 <v value="family"/>
 <v value="factor"/>
 <v value="extent"/>
 <v value="extension"/>
 <v value="exports"/>
 <v value="export"/>
 <v value="even"/>
 <v value="eukaryotic"/>
 <v value="ester"/>
 <v value="especially"/>
 <v value="epoxy"/>
 <v value="epidioxy"/>
 <v value="enzymes"/>
 <v value="enzyme"/>
 <v value="endoplasmic"/>
 <v value="end"/>
 <v value="elongation"/>
 <v value="efflux"/>
 <v value="during"/>
 <v value="due"/>
 <v value="drugs"/>
 <v value="drug"/>
 <v value="double"/>
 <v value="domains"/>
 <v value="directly"/>
 <v value="dienoate"/>
 <v value="dependent"/>
 <v value="deoxynucleotide"/>
 <v value="dehydroascorbate"/>
 <v value="definition"/>
 <v value="definite"/>
 <v value="cytoskeleton"/>
 <v value="cycle"/>
 <v value="covalent"/>
 <v value="copper"/>
 <v value="containing"/>
 <v value="conjugate"/>
 <v value="compound"/>
 <v value="complexed"/>
 <v value="complex"/>
 <v value="coagulation"/>
 <v value="closely"/>
 <v value="cholesterol"/>
 <v value="chlorophyll"/>
 <v value="chloride"/>
 <v value="characterized"/>
 <v value="characteristic"/>
 <v value="channel"/>
 <v value="chain"/>
 <v value="cellular"/>
 <v value="cells"/>
 <v value="cell"/>
 <v value="catalyze"/>
 <v value="cassette"/>
 <v value="carbohydrate"/>
 <v value="cap"/>
 <v value="can"/>
 <v value="calcium"/>
 <v value="cadmium"/>
 <v value="but"/>
 <v value="both"/>
 <v value="bonds"/>
 <v value="bond"/>
 <v value="blood"/>
 <v value="biological"/>
 <v value="binds"/>
 <v value="binding"/>
 <v value="bind"/>
 <v value="between"/>
 <v value="beta"/>
 <v value="base"/>
 <v value="bacteriochlorophyll"/>
 <v value="bacterial"/>
 <v value="bacteria"/>
 <v value="atom"/>
 <v value="associated"/>
 <v value="ascorbate"/>
 <v value="apoptosis"/>
 <v value="any"/>
 <v value="anti"/>
 <v value="anions"/>
 <v value="anion"/>
 <v value="animal"/>
 <v value="amino"/>
 <v value="also"/>
 <v value="alpha"/>
 <v value="alkali"/>
 <v value="adrenal"/>
 <v value="acyl"/>
 <v value="activity"/>
 <v value="active"/>
 <v value="activates"/>
 <v value="activate"/>
 <v value="action"/>
 <v value="acting"/>
 <v value="actin"/>
 <v value="acids"/>
 <v value="acid"/>
 <v value="about"/>
 <v value="This"/>
 <v value="They"/>
 <v value="Rho"/>
 <v value="RNA"/>
 <v value="RAS"/>
 <v value="Out"/>
 <v value="NADPH"/>
 <v value="NADP"/>
 <v value="Interacting"/>
 <v value="III"/>
 <v value="Gram"/>
 <v value="GTPase"/>
 <v value="GTP"/>
 <v value="GDP"/>
 <v value="DNA"/>
 <v value="CpG"/>
 <v value="Catalyzes"/>
 <v value="Catalysis"/>
 <v value="Any"/>
 <v value="ATPase"/>
 <v value="ATP"/>
 <v value="ADP"/>
 <v value="ABC"/>
 
  <hit>The action characteristic of a gene product. definition_</hit>
  <hit>Any antibody to a toxin of a microorganism that neutralizes the toxin both in vitro and in vivo. definition_</hit>
  <hit>Any substance that retards or prevents coagulation. Often used in the context of blood or milk coagulation. definition_</hit>
  <hit>Inhibits the formation of ice crystals in organismal fluid (e.g. blood) at below freezing exogenous temperatures. definition_</hit>
  <hit>Any substance, often an organic compound, that opposes oxidation or inhibits reactions brought about by dioxygen or peroxides. Usually the antioxidant is effective because it can itself be more easily oxidized than the substance protected. The term is often applied to components that can trap free radicals, thereby breaking the chain reaction that normally leads to extensive biological damage. definition_</hit>
  <hit>Catalysis of the glutathione-dependent reduction of dehydroascorbate, oxidizing glutathione in the process. definition_</hit>
  <hit>Catalysis of the reaction: 2 glutathione + NADP+ = glutathione disulfide + NADPH + H+. definition_</hit>
  <hit>A flavoprotein catalyzing the reaction: NADPH + H+ + oxidized thoredoxin = NADP+ + reduced thioredoxin. definition_</hit>
  <hit>The function held by products which directly activate any step in the process of apoptosis. definition_</hit>
  <hit>The function held by products which directly block any step in the process of apoptosis. definition_</hit>
  <hit>The selective and stoichiometric interaction of a molecule with one or more specific sites on another molecule. definition_</hit>
  <hit>Interacting selectively and stoichiometrically with an amino acid, organic acids containing one or more amino substituents, into, out of, or within a cell. definition_</hit>
  <hit>Interacting selectively and stoichiometrically with glutamate, the salt or anion of 2-aminopentanedioic acid. definition_</hit>
  <hit>Interacting selectively and stoichiometrically with glycine, aminoethanoic acid. definition_</hit>
  <hit>Interacting selectively and stoichiometrically with calcium ions (Na+). definition_</hit>
  <hit>Interacting selectively and stoichiometrically with any carbohydrate. definition_</hit>
  <hit>Interacting selectively and stoichiometrically with any polysaccharide. definition_</hit>
  <hit>Interacting selectively and stoichiometrically with cellulose. definition_</hit>
  <hit>Interacting selectively and stoichiometrically with chitin, a linear polysaccharide consisting of P-1,4-linked N acetyl-D-glucosamine residues. definition_</hit>
  <hit>Interacting selectively and stoichiometrically with any any mono-, di- or small oligosaccharide carbohydrate. definition_</hit>
  <hit>Interacting selectively and stoichiometrically with any glycoside in which the sugar moiety is galactose. definition_</hit>
  <hit>Interacting selectively and stoichiometrically with the D- and L-enantiomers of glucose. definition_</hit>
  <hit>Interacting selectively and stoichiometrically with lactose, a disaccharide of glucose and galactose, the carbohydrate of milk. definition_</hit>
  <hit>A lectin that exhibits calcium independent binding of beta-galactoside sugars. definition_</hit>
  <hit>Interacting selectively and stoichiometrically with mannose, a monosaccharide hexose, stereoisomeric with glucose, that occurs naturally only in polymerized forms called mannans. definition_</hit>
  <hit>Interacting selectively and stoichiometrically with chlorophyll; any compound of magnesium complexed in a porphyrin (tetrapyrrole) ring and which functions as a photosynthetic pigment. definition_</hit>
  <hit>Interacting selectively and stoichiometrically with bacteriochlorophyll, a form of chlorophyll found in photosynthetic bacteria, such as the purple and green bacteria. There are several types, designated a to g. Bacteriochlorophyll a and bacteriochlorophyll b are structurally similar to the chlorophyll a and chlorophyll b found in plants. definition_</hit>
  <hit>Interacting selectively and stoichiometrically with bacteriochlorophyll c, a chlorophyll of photosynthetic bacteria e.g. green sulfur bacteria. definition_</hit>
  <hit>Interacting selectively and stoichiometrically with cyclosporin A, a cyclic undecapeptide that contains several N-methylated and unusual amino acids. definition_</hit>
  <hit>Any of a family of proteins to which the immunosuppressant FK506 binds. They are found in many species from bacteria to humans. Like cyclophilin they possess peptidyl-prolyl isomerase activity (EC 5.2.1.8), but have no similarity in structure. Both types belong to the class of proteins termed immunophilins. definition_</hit>
  <hit>Interacting selectively and stoichiometrically with a heavy metal, a metal that can form a coordination bond with a protein, as opposed to an alkali or alkaline-earth metal that can only form an ionic bond; this definition includes the following biologically relevant heavy metals: Cd, Co, Cu, Fe, Hg, Mn, Mo, Ni, V, W, Zn. definition_</hit>
  <hit>Interacting selectively and stoichiometrically with copper (Cu). definition_</hit>
  <hit>Interacting selectively and stoichiometrically with iron (Fe). definition_</hit>
  <hit>Interacting selectively and stoichiometrically with ferric iron, Fe(III). definition_</hit>
  <hit>Interacting selectively and stoichiometrically with ferrous iron, Fe(II). definition_</hit>
  <hit>Interacting selectively and stoichiometrically with heme, any compound of iron complexed in a porphyrin (tetrapyrrole) ring. definition_</hit>
  <hit>Interacting selectively and stoichiometrically with manganese (Mn). definition_</hit>
  <hit>Interacting selectively and stoichiometrically with mercury (Hg). definition_</hit>
  <hit>Interacting selectively and stoichiometrically with molybdenum (Mo). definition_</hit>
  <hit>Interacting selectively and stoichiometrically with nickel (Ni). definition_</hit>
  <hit>Interacting selectively and stoichiometrically with zinc (Zn). definition_</hit>
  <hit>Interacting selectively and stoichiometrically with double-stranded DNA. definition_</hit>
  <hit>Facilitates the base-pairing of complementary single-stranded DNA. definition_</hit>
  <hit>Catalysis of the identification and base-pairing of homologous sequences between single-stranded DNA and double-stranded DNA. definition_</hit>
  <hit>Catalysis of new phosphodiester bonds between a pair of short, unique DNA target sequences. definition_</hit>
  <hit>Catalysis of new phosphodiester bonds between a pair of short, unique DNA target sequences. The formation of new phosphodiester bonds occurs through a phosphotyrosyl intermediate in which the target sequence is first cleaved by the nucleophilic attack by a tyrosine in the active site. definition_</hit>
  <hit>Interacting selectively and stoichiometrically with DNA sequences encoding ribosomal RNA. definition_</hit>
  <hit>Interacting selectively and stoichiometrically with single-stranded DNA. definition_</hit>
  <hit>Catalysis of the reaction: deoxynucleoside triphosphate + DNA(n) = diphosphate + DNA(n+1). Catalyzes extension of the 3'- end of a DNA strand by one deoxynucleotide at a time using an internal RNA template that encodes the telomeric repeat sequence. definition_</hit>
  <hit>Catalysis of the extension of the 3' end of a DNA strand by one deoxynucleotide at a time. Cannot initiate a chain de novo; uses the RNA subunit of the telomerase enzyme complex as its template. definition_</hit>
  <hit>Provision of the template used by reverse transcriptase to synthesize the G-rich strand of telomeric DNA. definition_</hit>
  <hit>An anti-sigma factor antagonist can bind to and inhibit an anti-sigma factor, consequently enabling the sigma factor to function as a transcriptional initiator. definition_</hit>
  <hit>A RNA polymerase initiating factor of bacteria; promotes the attachment of the RNA polymerase, of which it is a subunit, to specific initiation sites; it is then released. definition_</hit>
  <hit>Any transcription factor required for initiation or upregulation of transcription. definition_</hit>
  <hit>Initiates or upregulates transcription in the presence of zinc. definition_</hit>
  <hit>Interacting selectively and stoichiometrically with a DNA triple helix. The formation of triple helical DNA has been evoked in several cellular processes including transcription, replication, and recombination. definition_</hit>
  <hit>Interacting selectively and stoichiometrically with unmethylated CpG motifs. Unmethylated CpG dinucleotides are often associated with gene promoters. definition_</hit>
  <hit>Catalysis of the hydrolysis of ester linkages within nucleic acids. definition_</hit>
  <hit>Any enzyme that catalyzes the hydrolysis of ester linkages within nucleic acids by creating internal breaks. definition_</hit>
  <hit>Interacting selectively and stoichiometrically with small nucleolar RNA. definition_</hit>
  <hit>Interacting selectively and stoichiometrically with a small nuclear RNA (snRNA). definition_</hit>
  <hit>Interacting selectively and stoichiometrically with the cap structure at the 5' end of a small nuclear RNA molecule. definition_</hit>
  <hit>Interacting selectively and stoichiometrically with the U1 small nuclear RNA (U1 snRNA). definition_</hit>
  <hit>Interacting selectively and stoichiometrically with the U6 small nuclear RNA (U6 snRNA). definition_</hit>
  <hit>Interacting selectively and stoichiometrically with the 3' end of the U6 small nuclear RNA (U6 snRNA). definition_</hit>
  <hit>Interacting selectively and stoichiometrically with transfer RNA. definition_</hit>
  <hit>Any of a group of soluble proteins which bind to nucleic acids during polypeptide synthesis at the ribosome. definition_</hit>
  <hit>A GTPase involved in protein synthesis. In the initiation factor complex, it is IF-2b (98 kDa) that binds GTP and subsequently hydrolyzes it in prokaryotes. In eukaryotes, it is eIF-2 (150 kDa) that binds GTP. In the elongation phase, the GTP-hydrolyzing proteins are the EF-Tu polypeptide of the prokaryotic transfer factor (43 kDa), the eukaryotic elongation factor EF-1a (53 kDa), the prokaryotic EF-G (77 kDa), the eukaryotic EF-2 (70-110 kDa) and the signal recognition particle that play a role in endoplasmic reticulum protein synthesis (325 kDa). EF-Tu and EF1a catalyze binding of aminoacyl-tRNA to the ribosomal A-site, while EF-G and EF-2 catalyze the translocation of peptidyl-tRNA from the A-site to the P-site. GTPase activity is also involved in polypeptide release from the ribosome with the aid of the pRFs and eRFs. definition_</hit>
  <hit>Catalysis of the reaction: GTP + H2O = GDP + phosphate. definition_</hit>
  <hit>The export of the alpha-factor sex pheromone by an ABC-type (ATP-binding cassette-type) ATPase, characterized by the presence of two similar ATP-binding domains, that does not undergo phosphorylation during the transport process. definition_</hit>
  <hit>An ABC-type (ATP-binding cassette-type) ATPase, characterized by the presence of two similar ATP-binding domains, that exports some heavy metals, especially cadmium, from the cytosol into the vacuole; does not undergo phosphorylation during the transport process. definition_</hit>
  <hit>A P-type ATPase that undergoes covalent phosphorylation during the transport cycle. This bacterial and mammalian enzyme exports copper ions from cells. definition_</hit>
  <hit>Exports diffusible peptide signals that are responsible for binding to other cells and triggering a series of responses to facilitate mating. definition_</hit>
  <hit>The transport of fatty acyl CoA into and out of peroxisomes by an ABC-type (ATP-binding cassette-type) ATPase, characterized by the presence of two similar ATP-binding domains, that does not undergo phosphorylation during the transport process. definition_</hit>
  <hit>The export of variety of xenobiotics, especially steroids, from cells by an ABC-type (ATP-binding cassette-type) ATPase, characterized by the presence of two similar ATP-binding domains, that does not undergo phosphorylation during the transport process. definition_</hit>
  <hit>ABC-type (ATP-binding cassette-type) ATPase, characterized by the presence of two similar ATP-binding domains. Does not undergo phosphorylation during the transport process. An animal enzyme that is active in forming a chloride channel, the absence of which brings about cystic fibrosis. It is also involved in the functioning of other transmembrane channels. definition_</hit>
  <hit>The export of drugs from cells by an ABC-type (ATP-binding cassette-type) ATPase, characterized by the presence of two similar ATP-binding domains, that does not undergo phosphorylation during the transport process. Show unusual specificity, covering various groups of unrelated substances, while ignoring some that are closely related structurally. Several distinct enzymes may be present in a single eukaryotic cell. Many of them transport glutathione conjugates with drugs. Some also show some 'flippase' (magnesium-ATPase, GO:0004012) activity. definition_</hit>
  <hit>The import of leucine, isoleucine and valine by an ABC-type (ATP-binding cassette-type) ATPase, characterized by the presence of two similar ATP-binding domains, that does not undergo phosphorylation during the transport process. definition_</hit>
  <hit>Catalysis of the reaction: ATP + H2O + nonpolar amino acid(Out) = ADP + phosphate + nonpolar amino acid(In). definition_</hit>
  <hit>The import of histidine, arginine, lysine, glutamic acid, glutamine, aspartic acid, ornithine, octopine and nopaline by an ABC-type (ATP-binding cassette-type) ATPase, characterized by the presence of two similar ATP-binding domains, that does not undergo phosphorylation during the transport process. definition_</hit>
  <hit>Catalysis of the reaction: ATP + H2O + polar amino acid(Out) = ADP + phosphate + polar amino acid(In). definition_</hit>
  <hit>The import of molybdate anions by an ABC-type (ATP-binding cassette-type) ATPase, characterized by the presence of two similar ATP-binding domains, that does not undergo phosphorylation during the transport process. definition_</hit>
  <hit>The import of nickel ions by an ABC-type (ATP-binding cassette-type) ATPase, characterized by the presence of two similar ATP-binding domains, that does not undergo phosphorylation during the transport process. definition_</hit>
  <hit>The import of nitrate, nitrite and cyanate anions by an ABC-type (ATP-binding cassette-type) ATPase, characterized by the presence of two similar ATP-binding domains, that does not undergo phosphorylation during the transport process. definition_</hit>
  <hit>The import of di- and oligopeptides by an ABC-type (ATP-binding cassette-type) ATPase, characterized by the presence of two similar ATP-binding domains, that does not undergo phosphorylation during the transport process. definition_</hit>
  <hit>The import of lactose, melibiose and raffinose by an ABC-type (ATP-binding cassette-type) ATPase, characterized by the presence of two similar ATP-binding domains, that does not undergo phosphorylation during the transport process. definition_</hit>
  <hit>The import of maltose and maltose oligosaccharides by an ABC-type (ATP-binding cassette-type) ATPase, characterized by the presence of two similar ATP-binding domains, that does not undergo phosphorylation during the transport process. definition_</hit>
  <hit>The import of phosphate anions by an ABC-type (ATP-binding cassette-type) ATPase, characterized by the presence of two similar ATP-binding domains, that does not undergo phosphorylation during the transport process. definition_</hit>
  <hit>The import of phosphonate and organophosphate anions by an ABC-type (ATP-binding cassette-type) ATPase, characterized by the presence of two similar ATP-binding domains, that does not undergo phosphorylation during the transport process. definition_</hit>
  <hit>The import of putrescine and spermidine by an ABC-type (ATP-binding cassette-type) ATPase, characterized by the presence of two similar ATP-binding domains, that does not undergo phosphorylation during the transport process. definition_</hit>
  <hit>A P-type ATPase that undergoes covalent phosphorylation during the transport cycle. This enzyme occurs in protozoa, fungi and plants and exports cadmium ions from cells. definition_</hit>
  <hit>A P-type ATPase that undergoes covalent phosphorylation during the transport cycle. This enzyme family comprises three types of calcium ion-transporting enzymes that are found in the plasma membrane, the sarcoplasmic reticulum and in yeast. The first and third transport one ion per ATP hydrolyzed, whereas the second transports two ions. definition_</hit>
  <hit>A P-type ATPase that undergoes covalent phosphorylation during the transport cycle. An animal and plant enzyme involved in the import of chloride anions. definition_</hit>
  <hit>A P-type ATPase that undergoes covalent phosphorylation during the transport cycle. This enzyme occurs in protozoa, fungi and plants, and generates an electrochemical potential gradient of protons across the plasma membrane. definition_</hit>
  <hit>A P-type ATPase that undergoes covalent phosphorylation during the transport cycle. Catalyzes the efflux of one hydrogen ion and the influx of one potassium ion per ATP hydrolyzed. definition_</hit>
  <hit>A P-type ATPase that undergoes covalent phosphorylation during the transport cycle, importing magnesium ions into cells. This enzyme occurs in both Gram-positive and Gram-negative bacteria. definition_</hit>
  <hit>A P-type ATPase that undergoes covalent phosphorylation during the transport cycle. A bacterial enzyme of di(heterotetrameric) structure that is involved in potassium ion import. The probable stoichiometry is one ion per ATP hydrolyzed. definition_</hit>
  <hit>The export of silver ions from cells by a P-type ATPase. definition_</hit>
  <hit>A P-type ATPase that undergoes covalent phosphorylation during the transport cycle. This enzyme, which is found in Gram-positive bacteria and in yeast, is involved in the efflux of sodium ions, with one ion being exported per ATP hydrolyzed. definition_</hit>
  <hit>Catalysis of the efflux of three sodium ions and influx of two potassium ions per ATP hydrolyzed. It is apparently involved in generating the plasma membrane electrical potential. definition_</hit>
</s>
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 <v value="geneontology"/>
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 <v value="trans"/>
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 <v value="testosterone"/>
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 <v value="sterol"/>
 <v value="steroid"/>
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 <v value="sodium"/>
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 <v value="single"/>
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 <v value="regulator"/>
 <v value="regulation"/>
 <v value="reductase"/>
 <v value="recombinase"/>
 <v value="rate"/>
 <v value="protein"/>
 <v value="potassium"/>
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 <v value="porter"/>
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 <v value="per"/>
 <v value="peptide"/>
 <v value="part"/>
 <v value="oxygen"/>
 <v value="one"/>
 <v value="nucleotide"/>
 <v value="nuclease"/>
 <v value="nickel"/>
 <v value="negative"/>
 <v value="monooxygenase"/>
 <v value="monomeric"/>
 <v value="mono"/>
 <v value="methyl"/>
 <v value="metal"/>
 <v value="mannose"/>
 <v value="leucine"/>
 <v value="lectin"/>
 <v value="lactose"/>
 <v value="iron"/>
 <v value="ion"/>
 <v value="inhibitor"/>
 <v value="inhibit"/>
 <v value="hydroxylase"/>
 <v value="hydroxy"/>
 <v value="hydrogen"/>
 <v value="heavy"/>
 <v value="guanyl"/>
 <v value="glutamate"/>
 <v value="genome"/>
 <v value="galactose"/>
 <v value="fatty"/>
 <v value="factor"/>
 <v value="exporting"/>
 <v value="exporter"/>
 <v value="export"/>
 <v value="exchanging"/>
 <v value="exchange"/>
 <v value="ester"/>
 <v value="epoxygenase"/>
 <v value="epoxy"/>
 <v value="end"/>
 <v value="double"/>
 <v value="copper"/>
 <v value="conductance"/>
 <v value="coil"/>
 <v value="cobalt"/>
 <v value="chlorophyll"/>
 <v value="change"/>
 <v value="carbohydrate"/>
 <v value="calcium"/>
 <v value="cadmium"/>
 <v value="binding"/>
 <v value="bind"/>
 <v value="beta"/>
 <v value="bacteriochlorophyll"/>
 <v value="atac"/>
 <v value="arginine"/>
 <v value="arachidonic"/>
 <v value="apoptosis"/>
 <v value="any"/>
 <v value="anti"/>
 <v value="antagonist"/>
 <v value="amino"/>
 <v value="alpha"/>
 <v value="acyl"/>
 <v value="activator"/>
 <v value="acid"/>
 <v value="SAR"/>
 <v value="Rho"/>
 <v value="RNA"/>
 <v value="RAS"/>
 <v value="RAN"/>
 <v value="RAB"/>
 <v value="Pol"/>
 <v value="NADPH"/>
 <v value="NADP"/>
 <v value="GTPase"/>
 <v value="GTP"/>
 <v value="DNA"/>
 <v value="CpG"/>
 <v value="ATPase"/>
 <v value="ATP"/>
 <v value="ARF"/>
 <v value="ADP"/>
 
  <hit>Gene_Ontology</hit>
  <hit>molecular_function</hit>
  <hit>partof</hit>
  <hit>anti-toxin</hit>
  <hit>isa</hit>
  <hit>lipoprotein anti-toxin</hit>
  <hit>anticoagulant</hit>
  <hit>antifreeze</hit>
  <hit>ice nucleation inhibitor</hit>
  <hit>antioxidant</hit>
  <hit>dehydroascorbate reductase</hit>
  <hit>glutathione reductase (NADPH)</hit>
  <hit>thioredoxin reductase (NADPH)</hit>
  <hit>apoptosis regulator</hit>
  <hit>apoptosis activator</hit>
  <hit>apoptotic protease activator</hit>
  <hit>apoptosis inhibitor</hit>
  <hit>binding</hit>
  <hit>amino acid binding</hit>
  <hit>glutamate binding</hit>
  <hit>glycine binding</hit>
  <hit>biotin binding</hit>
  <hit>calcium ion binding</hit>
  <hit>calcium ion storage</hit>
  <hit>carbohydrate binding</hit>
  <hit>polysaccharide binding</hit>
  <hit>cellulose binding</hit>
  <hit>chitin binding</hit>
  <hit>sugar binding</hit>
  <hit>galactose binding</hit>
  <hit>galactose binding lectin</hit>
  <hit>galactoside binding</hit>
  <hit>glucose binding</hit>
  <hit>galectin</hit>
  <hit>mannose binding lectin</hit>
  <hit>N-acetyl-galactosamine lectin</hit>
  <hit>chlorophyll binding</hit>
  <hit>bacteriochlorophyll binding</hit>
  <hit>bacteriochlorophyll c binding</hit>
  <hit>drug binding</hit>
  <hit>cocaine binding</hit>
  <hit>cyclosporin A binding</hit>
  <hit>macrolide binding</hit>
  <hit>FK506 binding</hit>
  <hit>FK506-sensitive peptidyl-prolyl cis-trans isomerase</hit>
  <hit>phenylalkylamine binding</hit>
  <hit>thienylcyclohexylpiperidine binding</hit>
  <hit>folate binding</hit>
  <hit>glycosaminoglycan binding</hit>
  <hit>heparin binding</hit>
  <hit>hyaluronic acid binding</hit>
  <hit>heavy metal binding</hit>
  <hit>copper binding</hit>
  <hit>copper/cadmium binding</hit>
  <hit>iron binding</hit>
  <hit>ferric iron binding</hit>
  <hit>ferrous iron binding</hit>
  <hit>heme binding</hit>
  <hit>manganese binding</hit>
  <hit>mercury binding</hit>
  <hit>molybdenum binding</hit>
  <hit>nickel binding</hit>
  <hit>zinc binding</hit>
  <hit>isoprenoid binding</hit>
  <hit>retinoid binding</hit>
  <hit>DNA supercoiling</hit>
  <hit>DNA unwinding factor</hit>
  <hit>double-stranded DNA binding</hit>
  <hit>DNA strand annealing</hit>
  <hit>double-stranded telomeric DNA binding</hit>
  <hit>recombinase</hit>
  <hit>site-specific recombinase</hit>
  <hit>tyrosine-based site-specific recombinase</hit>
  <hit>left-handed Z-DNA binding</hit>
  <hit>methyl-CpG binding</hit>
  <hit>P-element binding</hit>
  <hit>plasmid-associated protein</hit>
  <hit>random coil DNA binding</hit>
  <hit>ribosomal DNA (rDNA) binding</hit>
  <hit>satellite DNA binding</hit>
  <hit>single-stranded DNA binding</hit>
  <hit>telomerase</hit>
  <hit>telomeric template RNA reverse transcriptase</hit>
  <hit>template for synthesis of G-rich strand of telomere DNA</hit>
  <hit>anti-sigma factor antagonist</hit>
  <hit>transcription initiation factor antagonist</hit>
  <hit>transcription termination factor</hit>
  <hit>Pol I transcription termination factor</hit>
  <hit>Pol II transcription termination factor</hit>
  <hit>Pol III transcription termination factor</hit>
  <hit>transcriptional activator</hit>
  <hit>zinc-mediated transcriptional activator</hit>
  <hit>transcriptional repressor</hit>
  <hit>general transcriptional repressor</hit>
  <hit>specific transcriptional repressor</hit>
  <hit>two-component response regulator</hit>
  <hit>triplex DNA binding</hit>
  <hit>unmethylated CpG binding</hit>
  <hit>nuclease</hit>
  <hit>endonuclease</hit>
</s>
<s slot="go:part-of" path="\go:go\rdf:RDF\go:term\go:part-of" menu="yes">
 
 <v value="org"/>
 <v value="geneontology"/>
 <v value="gene"/>
 
  <hit>&amp;lt;go:part-of rdf:resource=&amp;quot;http://www.geneontology.org/go#GO:0003673&amp;quot; /&amp;gt;</hit>
  <hit>&amp;lt;go:part-of rdf:resource=&amp;quot;http://www.geneontology.org/go#GO:0003720&amp;quot; /&amp;gt;</hit>
  <hit>&amp;lt;go:part-of rdf:resource=&amp;quot;http://www.geneontology.org/go#GO:0019058&amp;quot; /&amp;gt;</hit>
  <hit>&amp;lt;go:part-of rdf:resource=&amp;quot;http://www.geneontology.org/go#GO:0019079&amp;quot; /&amp;gt;</hit>
  <hit>&amp;lt;go:part-of rdf:resource=&amp;quot;http://www.geneontology.org/go#GO:0045090&amp;quot; /&amp;gt;</hit>
</s>
<s slot="go:synonym" path="\go:go\rdf:RDF\go:term\go:synonym\text()" menu="yes">
 
 <v value="vitamin"/>
 <v value="transporting"/>
 <v value="transport"/>
 <v value="transmembrane"/>
 <v value="trans"/>
 <v value="telomerase"/>
 <v value="sodium"/>
 <v value="resistance"/>
 <v value="pump"/>
 <v value="proton"/>
 <v value="protein"/>
 <v value="porter"/>
 <v value="nucleotide"/>
 <v value="multidrug"/>
 <v value="membrane"/>
 <v value="ion"/>
 <v value="hydroxylase"/>
 <v value="hydroxy"/>
 <v value="fibrosis"/>
 <v value="factor"/>
 <v value="exporter"/>
 <v value="export"/>
 <v value="drug"/>
 <v value="cytochrome"/>
 <v value="cystic"/>
 <v value="conductance"/>
 <v value="calcium"/>
 <v value="binding"/>
 <v value="bind"/>
 <v value="amino"/>
 <v value="alpha"/>
 <v value="acid"/>
 <v value="Rho"/>
 <v value="GEF"/>
 <v value="CYP"/>
 <v value="ATPase"/>
 <v value="ATP"/>
 
  <hit>glutathione dehydrogenase (ascorbate)</hit>
  <hit>thioredoxin-disulfide reductase</hit>
  <hit>ligand</hit>
  <hit>glutamic acid binding</hit>
  <hit>Gly binding</hit>
  <hit>aminoacetie acid binding</hit>
  <hit>aminoethanoic acid binding</hit>
  <hit>vitamin H binding</hit>
  <hit>S-type lectin</hit>
  <hit>mannose receptor</hit>
  <hit>FK506 binding protein</hit>
  <hit>FKBP</hit>
  <hit>molybdate binding</hit>
  <hit>strand transferase</hit>
  <hit>GO:0016017</hit>
  <hit>GO:0003698</hit>
  <hit>GO:0003699</hit>
  <hit>telomerase, catalyst</hit>
  <hit>telomerase, template</hit>
  <hit>GO:0003710</hit>
  <hit>transcription activating factor</hit>
  <hit>GO:0003728</hit>
  <hit>a-factor-transporting ATPase</hit>
  <hit>GO:0008562</hit>
  <hit>cystic fibrosis transmembrane conductance exporter</hit>
  <hit>cystic fibrosis transmembrane conductance regulator</hit>
  <hit>GO:0005226</hit>
  <hit>P-glycoprotein</hit>
  <hit>multidrug resistance exporter</hit>
  <hit>multidrug-resistance protein</hit>
  <hit>sugar transporter</hit>
  <hit>proton-/sodium-translocating ATPase</hit>
  <hit>GO:0008561</hit>
  <hit>calcium efflux ATPase</hit>
  <hit>calcium pump</hit>
  <hit>sarcoplasmic reticulum ATPase</hit>
  <hit>proton-exporting ATPase</hit>
  <hit>GO:0005390</hit>
  <hit>proton pump</hit>
  <hit>K+-transporting ATPase</hit>
  <hit>sodium pump</hit>
  <hit>GEF</hit>
  <hit>GNRP</hit>
  <hit>GO:0008433</hit>
  <hit>guanyl-nucleotide releasing factor</hit>
  <hit>RCC1</hit>
  <hit>Rho guanine nucleotide exchange factor</hit>
  <hit>RhoGEF</hit>
  <hit>cytochrome P450 CYP24</hit>
  <hit>cytochrome P450 CYP2B19</hit>
  <hit>cytochrome P450 CYP2C38</hit>
  <hit>cytochrome P450 CYP2C29</hit>
  <hit>cytochrome P450 CYP2C39</hit>
  <hit>cytochrome P450 CYP2J5</hit>
  <hit>cytochrome P450 CYP2J6</hit>
  <hit>cytochrome P450 CYP19</hit>
  <hit>estrogen synthetase</hit>
  <hit>25-hydroxy vitamin D3 1-alpha-hydroxylase</hit>
  <hit>cytochrome P450 CYP27B</hit>
  <hit>cytochrome P450 CYP7A1</hit>
  <hit>cytochrome P450 CYP2A5</hit>
  <hit>cytochrome P450 CYP2E1</hit>
  <hit>cytochrome P450 CYP51</hit>
  <hit>cytochrome P450 CYP2F2</hit>
  <hit>cytochrome P450 CYP2G1</hit>
  <hit>cytochrome P450 CYP7B1</hit>
  <hit>cytochrome P450 CYP98A3</hit>
  <hit>CYP55</hit>
  <hit>P450nor</hit>
  <hit>cytochrome P450 CYP8A1</hit>
  <hit>prostacyclin synthase</hit>
  <hit>cytochrome P450 CYP261</hit>
  <hit>cytochrome P450 CYP11B1</hit>
  <hit>cytochrome P450 CYP11B2</hit>
  <hit>cytochrome P450 CYP17</hit>
  <hit>steroid 17-alpha-hydroxylase/C17-20 lyase</hit>
  <hit>cytochrome P450 CYP21A1</hit>
  <hit>cytochrome P450 CYP2A12</hit>
  <hit>cytochrome P450 CYP8B1</hit>
  <hit>cytochrome P450 CYP2A4</hit>
  <hit>cytochrome P450 CYP2B10</hit>
  <hit>cytochrome P450 CYP2B9</hit>
  <hit>cytochrome P450 CYP2D10</hit>
  <hit>cytochrome P450 CYP2D11</hit>
  <hit>cytochrome P450 CYP2D9</hit>
  <hit>GO:0008400</hit>
  <hit>GO:0015033</hit>
  <hit>oxygen-carrying</hit>
</s>
</frame>

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