{"id":19397,"date":"2015-10-05T19:30:56","date_gmt":"2015-10-05T17:30:56","guid":{"rendered":"http:\/\/emblog.embl.de\/ells\/?post_type=teachingbase&#038;p=19397"},"modified":"2022-05-13T08:40:51","modified_gmt":"2022-05-13T08:40:51","slug":"step-1-database-search","status":"publish","type":"teachingbase","link":"https:\/\/www.embl.org\/ells\/teachingbase\/gfp-treasure-hunt\/step-1-database-search\/","title":{"rendered":"Step 1: Database search"},"content":{"rendered":"\n<div class=\"vf-tabs\"><ul class=\"vf-tabs__list\" data-vf-js-tabs=\"true\"><li class=\"vf-tabs__item\"><a class=\"vf-tabs__link\" href=\"#vf-tabs__section-eb3017af-9360-4832-908c-107a9f99818b\" data-vf-js-location-nearest-activation-target=\"\">Overview<\/a><\/li><li class=\"vf-tabs__item\"><a class=\"vf-tabs__link\" href=\"#vf-tabs__section-d751d2a3-18f5-4d42-8d6c-d40e16241457\" data-vf-js-location-nearest-activation-target=\"\">Your task<\/a><\/li><li class=\"vf-tabs__item\"><a class=\"vf-tabs__link\" href=\"#vf-tabs__section-d3b43fe3-023d-481e-afb7-6734f27d7e1d\" data-vf-js-location-nearest-activation-target=\"\">ENA<\/a><\/li><li class=\"vf-tabs__item\"><a class=\"vf-tabs__link\" href=\"#vf-tabs__section-9f84c97d-209d-4748-b6c9-776638207dba\" data-vf-js-location-nearest-activation-target=\"\">Sequences 1-4<\/a><\/li><li class=\"vf-tabs__item\"><a class=\"vf-tabs__link\" href=\"#vf-tabs__section-52c6bc99-9a02-4ae5-8a6e-430840bb6818\" data-vf-js-location-nearest-activation-target=\"\">Questions<\/a><\/li><li class=\"vf-tabs__item\"><a class=\"vf-tabs__link\" href=\"#vf-tabs__section-8a08190e-8d17-4c24-a88a-801893213516\" data-vf-js-location-nearest-activation-target=\"\">Activity navigation<\/a><\/li><\/ul><div class=\"vf-tabs-content\" data-vf-js-tabs-content=\"true\">\n<section class=\"vf-tabs__section\" id=\"vf-tabs__section-eb3017af-9360-4832-908c-107a9f99818b\"><h2>Overview<\/h2>\n<p>Imagine that our DNA samples have been mixed up before sequencing and we don&#8217;t know which one is which. To establish the identity of the sequences and find out more about their origins, we will search a database called European Nucleotide Archive (ENA).<\/p>\n\n\n\n<p>The sequences we will use for our analysis can be found in the &#8220;Sequences&#8221; tabs below. Each of them has a generic name, and after the ENA search you should be able to assign the sequences to four organisms of origin.<\/p>\n<\/section>\n\n\n\n<section class=\"vf-tabs__section\" id=\"vf-tabs__section-d751d2a3-18f5-4d42-8d6c-d40e16241457\"><h2>Your task<\/h2>\n<p><strong>Proceed as described below:<\/strong><\/p>\n\n\n\n<ol class=\"wp-block-list\"><li>Go to the tab \u201cSequence 1\u201d and copy the whole sequence which starts with \u201c&gt;Sequence 1\u201d. You can use the keyboard shortcut Ctrl.+C to copy the sequence.<\/li><li>Follow the instructions in the \u201cENA\u201d tab to search the database.<\/li><li>Take a note of what you have found, try to answer the questions in the \u201cQuestions\u201d tab and repeat this procedure with the rest of the sequences.<\/li><\/ol>\n<\/section>\n\n\n\n<section class=\"vf-tabs__section\" id=\"vf-tabs__section-d3b43fe3-023d-481e-afb7-6734f27d7e1d\"><h2>ENA<\/h2>\n<ol class=\"wp-block-list\"><li>Paste the sequence into the ENA search box (shortcut Ctrl.+V).<\/li><li>Now, click on&nbsp;<strong>\u201cSubmit\u201c<\/strong>&nbsp;at the bottom and your search will be initiated. The inserted sequence will now be compared to all the known sequences that are contained in the database.<\/li><li>The search results will be presented to you after a few seconds. Scroll through the page to the columns headed \u201cENA\u201d and try to find out which species was identified to match your sequence. The most similar sequences have an \u201cIdentity (%)\u201d value of 100 and an \u201cE-Value\u201d of 0.<\/li><li>Take a note of what you have found, try to answer the questions in the \u201cQuestions\u201d tab and repeat this procedure with the rest of the sequences.<\/li><\/ol>\n\n\n<div\n  class=\"vf-embed vf-embed--custom-ratio\"\n\n  style=\"--vf-embed-max-width: 100%;\n    --vf-embed-custom-ratio-x: 640;\n    --vf-embed-custom-ratio-y: 360;\"\n><iframe loading=\"lazy\" width=\"640\" height=\"360\" src=\"https:\/\/www.ebi.ac.uk\/ena\/browser\/sequence-search\" frameborder=\"0\" allow=\"accelerometer; autoplay; encrypted-media; gyroscope; picture-in-picture\" allowfullscreen><\/iframe><\/div>\n<\/section>\n\n\n\n<section class=\"vf-tabs__section\" id=\"vf-tabs__section-9f84c97d-209d-4748-b6c9-776638207dba\"><h2>Sequences 1-4<\/h2>\n<details  class=\"vf-details\" id=\"\"  >\n<summary class=\"vf-details--summary\">\nSequence 1<\/summary>\n<div class=\"acf-innerblocks-container\">\n\n<pre class=\"wp-block-preformatted\"><span style=\"word-break:break-all\"<\/span>&gt;Sequence1_AVGFP\nATGAGTAAAGGAGAAGAACTTTTCACTGGAGTGGTCCCAGTTCTTGTTGAATTAGATGGCGATGTTAATGGGCAAAAATTCTCTGTCAGTGGAGAGGGTGAAGGTGATGCAACATACGGAAAACTTACCCTTAATTTTATTTGCACTACTGGGAAGCTACCTGTTCCATGGCCAACACTTGTCACTACTTTCTCTTATGGTGTTCAATGCTTCTCAAGATACCCAGATCATATGAAACAGCATGACTTTTTCAAGAGTGCCATGCCCGAAGGTTATGTACAGGAAAGAACTATATTTTACAAAGATGACGGGAACTACAAGACACGTGCTGAAGTCAAGTTTGAAGGTGATACCCTTGTTAATAGAATCGAGTTAAAAGGTATTGATTTTAAAGAAGATGGAAACATTCTTGGACACAAAATGGAATACAACTATAACTCACATAATGTATACATCATGGGAGACAAACCAAAGAATGGCATCAAAGTTAACTTCAAAATTAGACACAACATTAAAGATGGAAGCGTTCAATTAGCAGACCATTATCAACAAAATACTCCAATTGGCGATGGCCCTGTCCTTTTACCAGACAACCATTACCTGTCCACACAATCTGCCCTTTCCAAAGATCCCAACGAAAAGAGAGATCACATGATCCTTCTTGAGTTTGTAACAGCTGCTAGGATTACACATGGCATGGATGAACTATACAAA<\/pre>\n\n<\/div>\n<\/details>\n\n\n\n<details  class=\"vf-details\" id=\"\"  >\n<summary class=\"vf-details--summary\">\nSequence 2<\/summary>\n<div class=\"acf-innerblocks-container\">\n\n<pre class=\"wp-block-preformatted\"><span style=\"word-break:break-all\"<\/span>\n&gt;Sequence2_GFPm\nATGTCTAAAGGTGAAGAATTATTCACTGGTGTTGTCCCAATTTTGGTTGAATTAGATGGTGATGTTAATGGTCACAAATTTTCTGTCTCCGGTGAAGGTGAAGGTGATGCTACTTACGGTAAATTGACCTTAAAATTTATTTGTACTACTGGTAAATTGCCAGTTCCATGGCCAACCTTAGTCACTACTTTCGGTTATGGTGTTCAATGTTTTGCTAGATACCCAGATCATATGAAACAACATGACTTTTTCAAGTCTGCCATGCCAGAAGGTTATGTTCAAGAAAGAACTATTTTTTTCAAAGATGACGGTAACTACAAGACCAGAGCTGAAGTCAAGTTTGAAGGTGATACCTTAGTTAATAGAATCGAATTAAAAGGTATTGATTTTAAAGAAGATGGTAACATTTTAGGTCACAAATTGGAATACAACTATAACTCTCACAATGTTTACATCATGGCTGACAAACAAAAGAATGGTATCAAAGTTAACTTCAAAATTAGACACAACATTGAAGATGGTTCTGTTCAATTAGCTGACCATTATCAACAAAATACTCCAATTGGTGATGGTCCAGTCTTGTTACCAGACAACCATTACTTATCCACTCAATCTGCCTTATCCAAAGATCCAAACGAAAAGAGAGACCACATGGTCTTGTTAGAATTTGTTACTGCTGCTGGTATTACCCATGGTATGGATGAATTGTACAAATAACTGCAG<\/pre>\n\n<\/div>\n<\/details>\n\n\n\n<details  class=\"vf-details\" id=\"\"  >\n<summary class=\"vf-details--summary\">\nSequence 3<\/summary>\n<div class=\"acf-innerblocks-container\">\n\n<pre class=\"wp-block-preformatted\"><span style=\"word-break:break-all\"<\/span>&gt;Sequence3_YFP\nAATATTTTTATTAATTCATTAGAAAAATGAGAGGAAGGATTATTATGTTTAAAGGTATAGTAGAAGGTATAGGAATCATTGAAAAAATTGATATATATACTGACCTAGATAAGTATGCAATTCGATTTCCTGAAAATATGTTGAATGGAATTAAAAAGGAGTCGTCAATAATGTTTAACGGATGCTTCTTAACGGTAACTAGCGTGAATTCAAACATTGTCTGGTTTGATATATTTGAAAAAGAAGCACGTAAGCTTGATACTTTTCGGGAATATAAGGTAGGTGACCGAGTAAATTTAGGAACATTCCCAAAATTTGGCGCTGCATCTGGTGGGCATATATTATCAGCAAGGATTTCATGTGTAGCAAGTATTATTGAAATAATAGAAAATGAGGATTATCAACAAATGTGGATTCAAATTCCTGAAAATTTTACAGAGTTTCTTATTGATAAAGACTATATTGCTGTGGATGGTATTAGCTTAACTATTGACACTATAAAAAACAACCAATTTTTCATTAGTTTACCCTTAAAAATAGCACAAAATACAAATATGAAATGGCGAAAAAAAGGTGATAAGGTAAATGTTGAGTTATCAAACAAAATTAATGCTAACCAGTGTTGGTAATTTACTGAGGATAGTAAAAATGAACTGTTTAAAATAATATTTAAATTTTTATTTATAATACAGAGTCAGTTGTTGTAAATAGTCTGAGTGGTAAATAAGTTCTACCATTAATTAAATATTATCCATATTAAATAAAGGATCT<\/pre>\n\n<\/div>\n<\/details>\n\n\n\n<details  class=\"vf-details\" id=\"\"  >\n<summary class=\"vf-details--summary\">\nSequence 4<\/summary>\n<div class=\"acf-innerblocks-container\">\n\n<pre class=\"wp-block-preformatted\"><span style=\"word-break:break-all\"<\/span>&gt;Sequence4_RFP\nAGTTTCAGCCAGTGACAGGGTGAGCTGCCAGGTATTCTAACAAGATGAGTTGTTCCAAGAATGTGATCAAGGAGTTCATGAGGTTCAAGGTTCGTATGGAAGGAACGGTCAATGGGCACGAGTTTGAAATAAAAGGCGAAGGTGAAGGGAGGCCTTACGAAGGTCACTGTTCCGTAAAGCTTATGGTAACCAAGGGTGGACCTTTGCCATTTGCTTTTGATATTTTGTCACCACAATTTCAGTATGGAAGCAAGGTATATGTCAAACACCCTGCCGACATACCAGACTATAAAAAGCTGTCATTTCCTGAGGGATTTAAATGGGAAAGGGTCATGAACTTTGAAGACGGTGGCGTGGTTACTGTATCCCAAGATTCCAGTTTGAAAGACGGCTGTTTCATCTACGAGGTCAAGTTCATTGGGGTGAACTTTCCTTCTGATGGACCTGTTATGCAGAGGAGGACACGGGGCTGGGAAGCCAGCTCTGAGCGTTTGTATCCTCGTGATGGGGTGCTGAAAGGAGACATCCATATGGCTCTGAGGCTGGAAGGAGGCGGCCATTACCTCGTTGAATTCAAAAGTATTTACATGGTAAAGAAGCCTTCAGTGCAGTTGCCAGGCTACTATTATGTTGACTCCAAACTGGATATGACGAGCCACAACGAAGATTACACAGTCGTTGAGCAGTATGAAAAAACCCAGGGACGCCACCATCCGTTCATTAAGCCTCTGCAGTGAACTCGGCTCAGTCATGGATTAGCGGTAATGGCCACAAAAGGCACGATGATCGTTTTTTAGGAATGCAGCCAAAAATTGAAGGTTATGACAGTAGAAATACAAGCAACAGGCTTTGCTTATTAAACATGTAATTGAAAAC<\/pre>\n\n<\/div>\n<\/details>\n<\/section>\n\n\n\n<section class=\"vf-tabs__section\" id=\"vf-tabs__section-52c6bc99-9a02-4ae5-8a6e-430840bb6818\"><h2>Questions<\/h2>\n<ul class=\"wp-block-list\"><li>Which species can be assigned to sequences 1, 2, 3 and 4?<\/li><li>Looking at \u201cAlignments\u201d you will find a 1:1 comparison of the two sequences. This is called a \u201cpairwise alignment\u201d. To view the alignment, either click on the description of the individual search results or click on \u201cShow all alignments\u201d at the bottom of the ENA results.<ul><li>How are the nucleotides depicted which are matching in both sequences?<\/li><li>Compare your input sequence with the database sequence. Are there any differences between your sequence (query) and the sequence stored in the database (subject)?<\/li><li>Are there any differences in single nucleotides between the two sequences? What could be the reasons for this?<\/li><\/ul><\/li><\/ul>\n<\/section>\n\n\n\n<section class=\"vf-tabs__section\" id=\"vf-tabs__section-8a08190e-8d17-4c24-a88a-801893213516\"><h2>Activity navigation<\/h2>\n<p><a href=\"https:\/\/www.embl.org\/ells\/teachingbase\/gfp-treasure-hunt\/\">GFP treasure hunt<\/a><\/p>\n\n\n\n<ul class=\"wp-block-list\"><li><a href=\"https:\/\/www.embl.org\/ells\/teachingbase\/gfp-treasure-hunt\/gfp-treasure-hunt-introduction\/\">GFP treasure hunt introduction<\/a><\/li><li><a href=\"https:\/\/www.embl.org\/ells\/teachingbase\/gfp-treasure-hunt\/step-1-database-search\/\">Step 1: Database search<\/a><\/li><li><a href=\"https:\/\/www.embl.org\/ells\/teachingbase\/gfp-treasure-hunt\/step-2-comparison-of-nucleotide-sequences\/\"><strong>Step 2: Comparison of nucleotide sequences<\/strong><\/a><\/li><li><a href=\"https:\/\/www.embl.org\/ells\/teachingbase\/gfp-treasure-hunt\/step-3-translation-of-mrnas\/\">Step 3: Translation of mRNAs<\/a><\/li><li><a href=\"https:\/\/www.embl.org\/ells\/teachingbase\/gfp-treasure-hunt\/step-4-comparison-of-amino-acid-sequences\/\">Step 4: Comparison of amino acid sequences<\/a><\/li><li><a href=\"https:\/\/www.embl.org\/ells\/teachingbase\/gfp-treasure-hunt\/step-5-structure-of-gfp\/\">Step 5: Structure of GFP<\/a><\/li><\/ul>\n<\/section>\n<\/div><\/div>\n\n\n\n<p><\/p>\n","protected":false},"excerpt":{"rendered":"","protected":false},"featured_media":1688,"parent":5012,"menu_order":5,"template":"","class_list":["post-19397","teachingbase","type-teachingbase","status-publish","has-post-thumbnail","hentry"],"acf":[],"_links":{"self":[{"href":"https:\/\/www.embl.org\/ells\/wp-json\/wp\/v2\/teachingbase\/19397","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/www.embl.org\/ells\/wp-json\/wp\/v2\/teachingbase"}],"about":[{"href":"https:\/\/www.embl.org\/ells\/wp-json\/wp\/v2\/types\/teachingbase"}],"up":[{"embeddable":true,"href":"https:\/\/www.embl.org\/ells\/wp-json\/wp\/v2\/teachingbase\/5012"}],"wp:featuredmedia":[{"embeddable":true,"href":"https:\/\/www.embl.org\/ells\/wp-json\/wp\/v2\/media\/1688"}],"wp:attachment":[{"href":"https:\/\/www.embl.org\/ells\/wp-json\/wp\/v2\/media?parent=19397"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}