<?xml version="1.0" encoding="utf-8"?>
<journal>
<title>International Journal of Biology Reports</title>
<title_fa>1</title_fa>
<short_title>injbir</short_title>
<subject>Literature &amp; Humanities</subject>
<web_url>http://injbir.com</web_url>
<journal_hbi_system_id>1</journal_hbi_system_id>
<journal_hbi_system_user>admin</journal_hbi_system_user>
<journal_id_issn>2980-9843</journal_id_issn>
<journal_id_issn_online>2980-9843</journal_id_issn_online>
<journal_id_pii>8</journal_id_pii>
<journal_id_doi>10.22034/injbir</journal_id_doi>
<journal_id_iranmedex></journal_id_iranmedex>
<journal_id_magiran></journal_id_magiran>
<journal_id_sid>14</journal_id_sid>
<journal_id_nlai>8888</journal_id_nlai>
<journal_id_science>13</journal_id_science>
<language>en</language>
<pubdate>
	<type>jalali</type>
	<year>1404</year>
	<month>7</month>
	<day>1</day>
</pubdate>
<pubdate>
	<type>gregorian</type>
	<year>2025</year>
	<month>10</month>
	<day>1</day>
</pubdate>
<volume>3</volume>
<number>2</number>
<publish_type>online</publish_type>
<publish_edition>1</publish_edition>
<article_type>fulltext</article_type>
<articleset>
	<article>


	<language>fa</language>
	<article_id_doi></article_id_doi>
	<title_fa></title_fa>
	<title>Expression pattern of potential heat stress genes under warm and cold episodes in scleractinian coral (Dipsastraea matthaii) in the hottest sea, Persian Gulf</title>
	<subject_fa>تخصصي</subject_fa>
	<subject>Special</subject>
	<content_type_fa>پژوهشي</content_type_fa>
	<content_type>Research</content_type>
	<abstract_fa></abstract_fa>
	<abstract>&lt;span style=&quot;font-size:12pt&quot;&gt;&lt;span style=&quot;line-height:120%&quot;&gt;&lt;span new=&quot;&quot; roman=&quot;&quot; style=&quot;font-family:&quot; times=&quot;&quot;&gt;&lt;strong&gt;&lt;span style=&quot;color:black&quot;&gt;Shallow coral reefs face significant threats due to anthropogenic ocean warming, which occasionally surpasses their thermal tolerance limits. However, specific hard coral species exhibit thermal resilience and can rapidly adapt to anomalous thermal stress events by modulating the expression of their heat stress-related genes. In a comparative analysis of microarray data, we identified candidate genes associated with temperature stress. Subsequently, to validate these findings, we selected four genes&amp;mdash;namely, Cell Division Cycle 16 (CDC16), Ubiquitin C (UBC), Heat Shock Protein 90 Beta Family Member 1 (HSP90B1), and Histone acetyltransferase p300 (EP300)&amp;mdash;as responsive to temperature stress in the scleractinian coral &lt;/span&gt;&lt;/strong&gt;&lt;em&gt;&lt;span style=&quot;color:black&quot;&gt;Dipsastera matthaii&lt;/span&gt;&lt;/em&gt;&lt;strong&gt;&lt;span style=&quot;color:black&quot;&gt;, collected from the Persian Gulf. Real-time PCR analysis during warm and cold periods confirmed significant changes in UBC, HSP90B1, and EP300 expression in response to heat stress. Notably, EP300 enhancement resulted from transcription activation via binding to transcription factors. A crucial aspect of this response involved the upregulation of molecular chaperones, including HSP90B1, due to the activation of heat shock factor 1 (HSF1). Additionally, HSF1 played a role in activating UBC, which facilitates the removal of critically digested proteins through the ubiquitin proteolysis system. These findings contribute to identifying potential candidate genes that could serve as valuable biomarkers for the selection of heat-tolerant genotypes.&lt;/span&gt;&lt;/strong&gt;&lt;strong&gt;&lt;span style=&quot;color:black&quot;&gt;&lt;span style=&quot;font-weight:normal&quot;&gt;&lt;/span&gt;&lt;/span&gt;&lt;/strong&gt;&lt;/span&gt;&lt;/span&gt;&lt;/span&gt;&lt;br&gt;
&amp;nbsp;</abstract>
	<keyword_fa></keyword_fa>
	<keyword>Thermal stress, Gene expression, Reef-building coral, Thermally resilient coral, Persian Gulf</keyword>
	<start_page>27</start_page>
	<end_page>54</end_page>
	<web_url>http://injbir.com/browse.php?a_code=A-10-1-25&amp;slc_lang=fa&amp;sid=1</web_url>


<author_list>
	<author>
	<first_name>M.R.</first_name>
	<middle_name></middle_name>
	<last_name>Shokri </last_name>
	<suffix></suffix>
	<first_name_fa></first_name_fa>
	<middle_name_fa></middle_name_fa>
	<last_name_fa></last_name_fa>
	<suffix_fa></suffix_fa>
	<email></email>
	<code></code>
	<orcid></orcid>
	<coreauthor>Yes
</coreauthor>
	<affiliation>Department of Animal Sciences and Marine Biology, Faculty of Life Sciences and Biotechnology, Shahid Beheshti University, Post code:1983969411, Tehran, Iran</affiliation>
	<affiliation_fa></affiliation_fa>
	 </author>


	<author>
	<first_name>M.</first_name>
	<middle_name></middle_name>
	<last_name>Tohidfar </last_name>
	<suffix></suffix>
	<first_name_fa></first_name_fa>
	<middle_name_fa></middle_name_fa>
	<last_name_fa></last_name_fa>
	<suffix_fa></suffix_fa>
	<email></email>
	<code></code>
	<orcid></orcid>
	<coreauthor>No</coreauthor>
	<affiliation>Department of Cell and Molecular Biology, Faculty of Life Sciences and Biotechnology, Shahid Beheshti University, Post code:1983969411, Tehran, Iran</affiliation>
	<affiliation_fa></affiliation_fa>
	 </author>


</author_list>


	</article>
</articleset>
</journal>
