Transcriptome Analysis of the Oil-Rich Tea Plant, Camellia oleifera, Reveals Candidate Genes Related to Lipid Metabolism
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{"title"=>"Transcriptome analysis of the oil-rich tea plant, Camellia oleifera, reveals candidate genes related to lipid metabolism", "type"=>"journal", "authors"=>[{"first_name"=>"En Hua", "last_name"=>"Xia", "scopus_author_id"=>"55625094100"}, {"first_name"=>"Jian Jun", "last_name"=>"Jiang", "scopus_author_id"=>"55731815600"}, {"first_name"=>"Hui", "last_name"=>"Huang", "scopus_author_id"=>"55738312100"}, {"first_name"=>"Li Ping", "last_name"=>"Zhang", "scopus_author_id"=>"56185661600"}, {"first_name"=>"Hai Bin", "last_name"=>"Zhang", "scopus_author_id"=>"55625197800"}, {"first_name"=>"Li Zhi", "last_name"=>"Gao", "scopus_author_id"=>"34770943600"}], "year"=>2014, "source"=>"PLoS ONE", "identifiers"=>{"scopus"=>"2-s2.0-84928241057", "sgr"=>"84928241057", "issn"=>"19326203", "doi"=>"10.1371/journal.pone.0104150", "pmid"=>"25136805", "pui"=>"373787305"}, "id"=>"6f66cdd7-3fe8-35ce-b918-a6e2fa06acb3", "abstract"=>"BACKGROUND: Rapidly driven by the need for developing sustainable sources of nutritionally important fatty acids and the rising concerns about environmental impacts after using fossil oil, oil-plants have received increasing awareness nowadays. As an important oil-rich plant in China, Camellia oleifera has played a vital role in providing nutritional applications, biofuel productions and chemical feedstocks. However, the lack of C. oleifera genome sequences and little genetic information have largely hampered the urgent needs for efficient utilization of the abundant germplasms towards modern breeding efforts of this woody oil-plant. RESULTS: Here, using the 454 GS-FLX sequencing platform, we generated approximately 600,000 RNA-Seq reads from four tissues of C. oleifera. These reads were trimmed and assembled into 104,842 non-redundant putative transcripts with a total length of ∼38.9 Mb, representing more than 218-fold of all the C. oleifera sequences currently deposited in the GenBank (as of March 2014). Based on the BLAST similarity searches, nearly 42.6% transcripts could be annotated with known genes, conserved domains, or Gene Ontology (GO) terms. Comparisons with the cultivated tea tree, C. sinensis, identified 3,022 pairs of orthologs, of which 211 exhibited the evidence under positive selection. Pathway analysis detected the majority of genes potentially related to lipid metabolism. Evolutionary analysis of omega-6 fatty acid desaturase (FAD2) genes among 20 oil-plants unexpectedly suggests that a parallel evolution may occur between C. oleifera and Olea oleifera. Additionally, more than 2,300 simple sequence repeats (SSRs) and 20,200 single-nucleotide polymorphisms (SNPs) were detected in the C. oleifera transcriptome. CONCLUSIONS: The generated transcriptome represents a considerable increase in the number of sequences deposited in the public databases, providing an unprecedented opportunity to discover all related-genes associated with lipid metabolic pathway in C. oleifera. It will greatly enhance the generation of new varieties of C. oleifera with increased yields and high quality.", "link"=>"http://www.mendeley.com/research/transcriptome-analysis-oilrich-tea-plant-camellia-oleifera-reveals-candidate-genes-related-lipid-met", "reader_count"=>24, "reader_count_by_academic_status"=>{"Librarian"=>1, "Researcher"=>5, "Student > Doctoral Student"=>2, "Student > Ph. D. Student"=>7, "Student > Postgraduate"=>6, "Student > Master"=>1, "Student > Bachelor"=>1, "Professor"=>1}, "reader_count_by_user_role"=>{"Librarian"=>1, "Researcher"=>5, "Student > Doctoral Student"=>2, "Student > Ph. D. Student"=>7, "Student > Postgraduate"=>6, "Student > Master"=>1, "Student > Bachelor"=>1, "Professor"=>1}, "reader_count_by_subject_area"=>{"Engineering"=>2, "Biochemistry, Genetics and Molecular Biology"=>4, "Agricultural and Biological Sciences"=>15, "Medicine and Dentistry"=>1, "Chemistry"=>1, "Immunology and Microbiology"=>1}, "reader_count_by_subdiscipline"=>{"Engineering"=>{"Engineering"=>2}, "Medicine and Dentistry"=>{"Medicine and Dentistry"=>1}, "Chemistry"=>{"Chemistry"=>1}, "Immunology and Microbiology"=>{"Immunology and Microbiology"=>1}, "Agricultural and Biological Sciences"=>{"Agricultural and Biological Sciences"=>15}, "Biochemistry, Genetics and Molecular Biology"=>{"Biochemistry, Genetics and Molecular Biology"=>4}}, "reader_count_by_country"=>{"Kenya"=>1, "Switzerland"=>1}, "group_count"=>1}

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Figshare

  • {"files"=>["https://ndownloader.figshare.com/files/1642412", "https://ndownloader.figshare.com/files/1642413", "https://ndownloader.figshare.com/files/1642414", "https://ndownloader.figshare.com/files/1642415", "https://ndownloader.figshare.com/files/1642416", "https://ndownloader.figshare.com/files/1642417", "https://ndownloader.figshare.com/files/1642418", "https://ndownloader.figshare.com/files/1642419", "https://ndownloader.figshare.com/files/1642420"], "description"=>"<div><p>Background</p><p>Rapidly driven by the need for developing sustainable sources of nutritionally important fatty acids and the rising concerns about environmental impacts after using fossil oil, oil-plants have received increasing awareness nowadays. As an important oil-rich plant in China, <i>Camellia oleifera</i> has played a vital role in providing nutritional applications, biofuel productions and chemical feedstocks. However, the lack of <i>C. oleifera</i> genome sequences and little genetic information have largely hampered the urgent needs for efficient utilization of the abundant germplasms towards modern breeding efforts of this woody oil-plant.</p><p>Results</p><p>Here, using the 454 GS-FLX sequencing platform, we generated approximately 600,000 RNA-Seq reads from four tissues of <i>C. oleifera</i>. These reads were trimmed and assembled into 104,842 non-redundant putative transcripts with a total length of ∼38.9 Mb, representing more than 218-fold of all the <i>C. oleifera</i> sequences currently deposited in the GenBank (as of March 2014). Based on the BLAST similarity searches, nearly 42.6% transcripts could be annotated with known genes, conserved domains, or Gene Ontology (GO) terms. Comparisons with the cultivated tea tree, <i>C. sinensis</i>, identified 3,022 pairs of orthologs, of which 211 exhibited the evidence under positive selection. Pathway analysis detected the majority of genes potentially related to lipid metabolism. Evolutionary analysis of omega-6 fatty acid desaturase (<i>FAD2</i>) genes among 20 oil-plants unexpectedly suggests that a parallel evolution may occur between <i>C. oleifera</i> and <i>Olea oleifera</i>. Additionally, more than 2,300 simple sequence repeats (SSRs) and 20,200 single-nucleotide polymorphisms (SNPs) were detected in the <i>C. oleifera</i> transcriptome.</p><p>Conclusions</p><p>The generated transcriptome represents a considerable increase in the number of sequences deposited in the public databases, providing an unprecedented opportunity to discover all related-genes associated with lipid metabolic pathway in <i>C. oleifera</i>. It will greatly enhance the generation of new varieties of <i>C. oleifera</i> with increased yields and high quality.</p></div>", "links"=>[], "tags"=>["oleifera genome sequences", "snp", "Candidate Genes Related", "ssr", "Lipid Metabolism BackgroundRapidly", "Camellia oleifera", "BLAST similarity searches", "fad"], "article_id"=>1145091, "categories"=>["Biological Sciences"], "users"=>["En-Hua Xia", "Jian-Jun Jiang", "Hui Huang", "Li-ping Zhang", "Hai-Bin Zhang", "Li-zhi Gao"], "doi"=>["https://dx.doi.org/10.1371/journal.pone.0104150.s001", "https://dx.doi.org/10.1371/journal.pone.0104150.s002", "https://dx.doi.org/10.1371/journal.pone.0104150.s003", "https://dx.doi.org/10.1371/journal.pone.0104150.s004", "https://dx.doi.org/10.1371/journal.pone.0104150.s005", "https://dx.doi.org/10.1371/journal.pone.0104150.s006", "https://dx.doi.org/10.1371/journal.pone.0104150.s007", "https://dx.doi.org/10.1371/journal.pone.0104150.s008", "https://dx.doi.org/10.1371/journal.pone.0104150.s009"], "stats"=>{"downloads"=>94, "page_views"=>17, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/Transcriptome_Analysis_of_the_Oil_Rich_Tea_Plant_Camellia_oleifera_Reveals_Candidate_Genes_Related_to_Lipid_Metabolism/1145091", "title"=>"Transcriptome Analysis of the Oil-Rich Tea Plant, <i>Camellia oleifera</i>, Reveals Candidate Genes Related to Lipid Metabolism", "pos_in_sequence"=>0, "defined_type"=>4, "published_date"=>"2014-08-19 03:41:59"}
  • {"files"=>["https://ndownloader.figshare.com/files/1642345"], "description"=>"<p>(<b>a</b>) Length distribution of 454 sequencing reads after filtering and trimming adapters. (<b>b</b>) Length distribution of the singletons and assembled isotigs.</p>", "links"=>[], "tags"=>["oleifera genome sequences", "snp", "Candidate Genes Related", "ssr", "Lipid Metabolism BackgroundRapidly", "Camellia oleifera", "BLAST similarity searches", "fad"], "article_id"=>1145030, "categories"=>["Biological Sciences"], "users"=>["En-Hua Xia", "Jian-Jun Jiang", "Hui Huang", "Li-ping Zhang", "Hai-Bin Zhang", "Li-zhi Gao"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0104150.g001", "stats"=>{"downloads"=>1, "page_views"=>4, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Overview_of_C_oleifera_transcriptome_sequencing_and_assembly_/1145030", "title"=>"Overview of <i>C. oleifera</i> transcriptome sequencing and assembly.", "pos_in_sequence"=>0, "defined_type"=>1, "published_date"=>"2014-08-19 03:41:59"}
  • {"files"=>["https://ndownloader.figshare.com/files/1642348"], "description"=>"<p>(<b>a</b>) Venn diagram showing the BLAST searches of <i>C. oleifera</i> transcriptome against the four public protein databases. <i>De novo</i> reconstructed transcript sequences were used to BLAST against public databases including NCBI's NR, TAIR10, UniRef90 and KOG. The number of transcripts that have significant hits (E-value≤10<sup>−5</sup>) against the four databases is shown in each intersection of the Venn diagram. (<b>b</b>) Species distribution is shown as the percentage of the total homologous sequences (with an E-value≤10<sup>−5</sup>). We searched the NCBI NR database by using BLASTx and extracted the best hit of each sequence for analysis.</p>", "links"=>[], "tags"=>["oleifera genome sequences", "snp", "Candidate Genes Related", "ssr", "Lipid Metabolism BackgroundRapidly", "Camellia oleifera", "BLAST similarity searches", "fad"], "article_id"=>1145032, "categories"=>["Biological Sciences"], "users"=>["En-Hua Xia", "Jian-Jun Jiang", "Hui Huang", "Li-ping Zhang", "Hai-Bin Zhang", "Li-zhi Gao"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0104150.g002", "stats"=>{"downloads"=>0, "page_views"=>4, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Characteristics_of_the_homology_search_of_unigenes_against_four_public_protein_databases_/1145032", "title"=>"Characteristics of the homology search of unigenes against four public protein databases.", "pos_in_sequence"=>0, "defined_type"=>1, "published_date"=>"2014-08-19 03:41:59"}
  • {"files"=>["https://ndownloader.figshare.com/files/1642350"], "description"=>"<p>The NR based Blast2GO results are summarized into three main GO categories: biological process (BP), cellular component (CC), and molecular function (MF). Only the top ten GO terms for each main function category are shown (blue: BP; red: CC; green: MF). The corresponding GO IDs are presented in parentheses. The x-axis indicates the number of genes assigned to the same GO term. One unigene may be matched to multiple GO terms.</p>", "links"=>[], "tags"=>["oleifera genome sequences", "snp", "Candidate Genes Related", "ssr", "Lipid Metabolism BackgroundRapidly", "Camellia oleifera", "BLAST similarity searches", "fad"], "article_id"=>1145034, "categories"=>["Biological Sciences"], "users"=>["En-Hua Xia", "Jian-Jun Jiang", "Hui Huang", "Li-ping Zhang", "Hai-Bin Zhang", "Li-zhi Gao"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0104150.g003", "stats"=>{"downloads"=>2, "page_views"=>118, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Histogram_presentation_of_the_most_abundant_Gene_Ontology_GO_terms_assigned_to_the_C_oleifera_transcriptome_/1145034", "title"=>"Histogram presentation of the most abundant Gene Ontology (GO) terms assigned to the <i>C. oleifera</i> transcriptome.", "pos_in_sequence"=>0, "defined_type"=>1, "published_date"=>"2014-08-19 03:41:59"}
  • {"files"=>["https://ndownloader.figshare.com/files/1642353"], "description"=>"<p>(<b>a</b>) Di-, tri-, tetra-, penta- and hexa-nucleotide repeats were analyzed. The x-axis shows the type of the SSRs, whereas y-axis shows total number of SSRs in different classes. (<b>b</b>) Frequencies of different SNPs/InDels. The x-axis indicates the substitution type of SNPs/InDels, while y-axis represents the number of SNPs/InDels for each substitution type.</p>", "links"=>[], "tags"=>["oleifera genome sequences", "snp", "Candidate Genes Related", "ssr", "Lipid Metabolism BackgroundRapidly", "Camellia oleifera", "BLAST similarity searches", "fad"], "article_id"=>1145037, "categories"=>["Biological Sciences"], "users"=>["En-Hua Xia", "Jian-Jun Jiang", "Hui Huang", "Li-ping Zhang", "Hai-Bin Zhang", "Li-zhi Gao"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0104150.g004", "stats"=>{"downloads"=>1, "page_views"=>11, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Distribution_of_simple_sequence_repeats_SSRs_single_nucleotide_polymorphisms_SNPs_and_insertion_deletions_InDels_in_C_oleifera_isotigs_/1145037", "title"=>"Distribution of simple sequence repeats (SSRs), single nucleotide polymorphisms (SNPs) and insertion/deletions (InDels) in <i>C. oleifera</i> isotigs.", "pos_in_sequence"=>0, "defined_type"=>1, "published_date"=>"2014-08-19 03:41:59"}
  • {"files"=>["https://ndownloader.figshare.com/files/1642357"], "description"=>"<p>(<b>a</b>) Distribution of GC content of CDS sequences among the <i>C. oleifera</i>, <i>C. sinensis</i>, <i>O. sativa</i> and <i>A. thaliana</i>. The CDS sequences of <i>O. sativa</i> (version 7.0) and <i>A. thaliana</i> (version 10) were downloaded from MSU Rice Genome Annotation Project (<a href=\"http://rice.plantbiology.msu.edu/\" target=\"_blank\">http://rice.plantbiology.msu.edu/</a>) and TAIR (<a href=\"http://www.arabidopsis.org/\" target=\"_blank\">http://www.arabidopsis.org/</a>), respectively. (<b>b</b>) Distribution of <i>Ka</i> and <i>Ks</i>. The mean <i>Ka</i>/<i>Ks</i> value is 0.39. The red line indicates the threshold of <i>Ka</i>/<i>Ks</i> = 1, whereas the blue line shows the more conservative threshold of <i>Ka</i>/<i>Ks</i> = 2. Analysis was performed using the method by Yang & Nielsen (2000).</p>", "links"=>[], "tags"=>["oleifera genome sequences", "snp", "Candidate Genes Related", "ssr", "Lipid Metabolism BackgroundRapidly", "Camellia oleifera", "BLAST similarity searches", "fad"], "article_id"=>1145041, "categories"=>["Biological Sciences"], "users"=>["En-Hua Xia", "Jian-Jun Jiang", "Hui Huang", "Li-ping Zhang", "Hai-Bin Zhang", "Li-zhi Gao"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0104150.g005", "stats"=>{"downloads"=>4, "page_views"=>7, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Characteristics_of_the_3_022_orthologous_genes_between_C_oleifera_and_C_sinensis_/1145041", "title"=>"Characteristics of the 3,022 orthologous genes between <i>C. oleifera</i> and <i>C. sinensis</i>.", "pos_in_sequence"=>0, "defined_type"=>1, "published_date"=>"2014-08-19 03:41:59"}
  • {"files"=>["https://ndownloader.figshare.com/files/1642358"], "description"=>"<p>During fatty acid biosynthesis, two-carbon units are added for each cycle reaction, and the four-step cycle is repeated until the appropriate chain-length is reached. Finally, different types of fatty acids are synthesized. The identified enzymes are shown in boxes and abbreviated as below: ACC, acetyl-CoA carboxylase (EC: 6.4.1.2); MAT, malonyl-CoA ACP transacylase (EC: 2.3.1.39); KAS, beta-ketoacyl-ACP synthase (KAS I, EC: 2.3.1.41; KASII, EC: 2.3.1.179; KAS III, EC: 2.3.1.180); KAR, beta-ketoacyl-ACP reductase (EC: 1.1.1.100); HAD, beta-hydroxyacyl-ACP dehydrase (EC: 4.2.1.-); EAR, enoyl-ACP reductase (EC: 1.3.1.9); AAD, acyl-ACP desaturase (EC: 1.14.19.2); OAH, oleoyl-ACP hydrolase (EC: 3.1.2.14); FatA, Acyl-ACP thioesterase A (EC: 3.1.2.-); Δ<sup>12</sup>D, Δ<sup>12</sup>(ω<sup>6</sup>)-desaturase (EC: 1.4.19.6). The numbers-in-circles indicates the repeat time of the condensation reaction.</p>", "links"=>[], "tags"=>["oleifera genome sequences", "snp", "Candidate Genes Related", "ssr", "Lipid Metabolism BackgroundRapidly", "Camellia oleifera", "BLAST similarity searches", "fad"], "article_id"=>1145042, "categories"=>["Biological Sciences"], "users"=>["En-Hua Xia", "Jian-Jun Jiang", "Hui Huang", "Li-ping Zhang", "Hai-Bin Zhang", "Li-zhi Gao"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0104150.g006", "stats"=>{"downloads"=>1, "page_views"=>9, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Core_reactions_of_fatty_acid_biosynthesis_reconstructed_based_on_the_de_novo_assembly_and_annotation_of_C_oleifera_transcriptome_/1145042", "title"=>"Core reactions of fatty acid biosynthesis reconstructed based on the <i>de novo</i> assembly and annotation of <i>C. oleifera</i> transcriptome.", "pos_in_sequence"=>0, "defined_type"=>1, "published_date"=>"2014-08-19 03:41:59"}
  • {"files"=>["https://ndownloader.figshare.com/files/1642359"], "description"=>"<p>Identified enzymes are shown in boxes, including: GK, glycerol kinase (EC: 2.7.1.30); GPAT, glycerol-3-phosphate O-acyltransferase (EC: 2.3.1.15); AGPAT, 1-acyl-sn-glycerol-3-phosphate O-acyltransferase (EC: 2.3.1.51); PP, phosphatidate phosphatase (EC: 3.1.3.4); DGAT, diacylglycerol O-acyltransferase (EC: 2.3.1.20); and PDAT, phopholipid∶ diacyglycerol acyltransferase (EC: 2.3.1.158). The dashed arrows denote reaction(s) in which the enzymes are not shown.</p>", "links"=>[], "tags"=>["oleifera genome sequences", "snp", "Candidate Genes Related", "ssr", "Lipid Metabolism BackgroundRapidly", "Camellia oleifera", "BLAST similarity searches", "fad"], "article_id"=>1145043, "categories"=>["Biological Sciences"], "users"=>["En-Hua Xia", "Jian-Jun Jiang", "Hui Huang", "Li-ping Zhang", "Hai-Bin Zhang", "Li-zhi Gao"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0104150.g007", "stats"=>{"downloads"=>7, "page_views"=>211, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Triacylglycerol_TAG_biosynthesis_pathway_reconstructed_based_on_the_de_novo_assembly_and_annotation_of_C_oleifera_transcriptome_/1145043", "title"=>"Triacylglycerol (TAG) biosynthesis pathway reconstructed based on the <i>de novo</i> assembly and annotation of <i>C. oleifera</i> transcriptome.", "pos_in_sequence"=>0, "defined_type"=>1, "published_date"=>"2014-08-19 03:41:59"}
  • {"files"=>["https://ndownloader.figshare.com/files/1642361"], "description"=>"<p>(<b>a</b>) The alignment of Cole|AFK31315 (<i>C. oleifera</i>, AFK31315), Cche|AGH32914 (<i>C. chekiangoleosa</i>, AGH32914) and ColeFAD2 (ColeIsotig4522:451–1599) amino acid sequences. The solid black lines indicate conserved amino acids. The filled boxes represent three H-boxes, including HECGH (red box), HRRHH (blue box), and HVAHH (green box). The position (left) is based on <i>FAD2</i> gene in <i>C. chekiangoleosa</i> (AGH32914). The three inconsistent amino acids were plotted in uppercase letters (black). Multiple sequence alignment was performed using ClustalW <a href=\"http://www.plosone.org/article/info:doi/10.1371/journal.pone.0104150#pone.0104150-Chenna1\" target=\"_blank\">[58]</a>, <a href=\"http://www.plosone.org/article/info:doi/10.1371/journal.pone.0104150#pone.0104150-Larkin1\" target=\"_blank\">[59]</a> package. (<b>b</b>) The amino acid sequences were used for phylogenetic tree analysis. The asterisk indicates the <i>FAD2</i> gene (ColeFAD2) detected in the assembled <i>C. oleifera</i> transcriptome (ColeIsotig4522:451–1599). I–V represent the five groups of all the 20 oil-plants classified by the sequence similarity. The GenBank accession numbers and the full species names of the genes used here are: Scom|CAA63432 (<i>Solanum commersonii</i>, CAA63432); Atha|NP_187819 (<i>Arabidopsis thaliana</i>, NP_187819); Hann|AAL68982 (<i>Helianthus annuus</i>, AAL68982); Brap|CAD30827 (<i>Brassica rapa</i>, CAD30827); Sole|BAC22091 (<i>Spinacia oleracea</i>, BAC22091); Oeur|AAL93620 (<i>Olea europaea</i>, AAL93620); Pgra|AAO37754 (<i>Punica granatum</i>, AAO37754); Oeur|AAW63041 (<i>Olea europaea</i>, AAW63041); Gmax|BAD89862 (<i>Glycine max</i>, BAD89862); Hbra|AAY87459 (<i>Hevea brasiliensis</i>, AAY87459); Jcur|ABA41034 (<i>Jatropha curcas</i>, ABA41034); Ptom|ABC41578 (<i>Populus tomentosa</i>, ABC41578); Vmon|ABL86147 (<i>Vernicia Montana</i>, ABL86147); Lusi|ACF49507 (<i>Linum usitatissimum</i>, ACF49507); Rcom|002530704 (<i>Ricinus communis</i>, XP_002530704); Ahyp|ACZ06072 (<i>Arachis hypogaea</i>, ACZ06072); Pvul|ADO17551 (<i>Phaseolus vulgaris</i>, ADO17551); Vfor|AEE69020 (<i>Vernicia fordii</i>, AEE69020); Vlab|AEI60128 (<i>Vitis labrusca</i>, AEI60128); Cole|AFK31315 (<i>C. oleifera</i>, AFK31315); Cche|AGH32914 (<i>C. chekiangoleosa</i>, AGH32914).</p>", "links"=>[], "tags"=>["oleifera genome sequences", "snp", "Candidate Genes Related", "ssr", "Lipid Metabolism BackgroundRapidly", "Camellia oleifera", "BLAST similarity searches", "fad"], "article_id"=>1145045, "categories"=>["Biological Sciences"], "users"=>["En-Hua Xia", "Jian-Jun Jiang", "Hui Huang", "Li-ping Zhang", "Hai-Bin Zhang", "Li-zhi Gao"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0104150.g008", "stats"=>{"downloads"=>2, "page_views"=>26, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Phylogenetic_analyses_of_the_FAD2_genes_among_20_oil_plants_/1145045", "title"=>"Phylogenetic analyses of the <i>FAD2</i> genes among 20 oil-plants.", "pos_in_sequence"=>0, "defined_type"=>1, "published_date"=>"2014-08-19 03:41:59"}
  • {"files"=>["https://ndownloader.figshare.com/files/1642362"], "description"=>"<p>17 candidate unigenes involved in lipid metabolism including (<b>a</b>) fatty acid and (<b>b</b>) TAG pathways were selected for the quantitative RT-PCR analysis. Standard error of the mean for three biological replicates (nested with three technical replicates) is represented by the error bars. Results represent the mean (± SD) of the three experiments. The translation elongation factor 1-alpha (TEF) gene was chosen as an internal standard.</p>", "links"=>[], "tags"=>["oleifera genome sequences", "snp", "Candidate Genes Related", "ssr", "Lipid Metabolism BackgroundRapidly", "Camellia oleifera", "BLAST similarity searches", "fad"], "article_id"=>1145046, "categories"=>["Biological Sciences"], "users"=>["En-Hua Xia", "Jian-Jun Jiang", "Hui Huang", "Li-ping Zhang", "Hai-Bin Zhang", "Li-zhi Gao"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0104150.g009", "stats"=>{"downloads"=>1, "page_views"=>8, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Quantitative_RT_PCR_validations_of_the_17_candidate_lipid_related_genes_in_the_C_oleifera_transcriptome_/1145046", "title"=>"Quantitative RT-PCR validations of the 17 candidate lipid-related genes in the <i>C. oleifera</i> transcriptome.", "pos_in_sequence"=>0, "defined_type"=>1, "published_date"=>"2014-08-19 03:41:59"}
  • {"files"=>["https://ndownloader.figshare.com/files/1642363"], "description"=>"<p>Enzymes involved in TAG biosynthesis and catabolism identified by the annotation of the <i>C. oleifera</i> transcriptome.</p>", "links"=>[], "tags"=>["oleifera genome sequences", "snp", "Candidate Genes Related", "ssr", "Lipid Metabolism BackgroundRapidly", "Camellia oleifera", "BLAST similarity searches", "fad"], "article_id"=>1145047, "categories"=>["Biological Sciences"], "users"=>["En-Hua Xia", "Jian-Jun Jiang", "Hui Huang", "Li-ping Zhang", "Hai-Bin Zhang", "Li-zhi Gao"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0104150.t005", "stats"=>{"downloads"=>5, "page_views"=>5, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Enzymes_involved_in_TAG_biosynthesis_and_catabolism_identified_by_the_annotation_of_the_C_oleifera_transcriptome_/1145047", "title"=>"Enzymes involved in TAG biosynthesis and catabolism identified by the annotation of the <i>C. oleifera</i> transcriptome.", "pos_in_sequence"=>0, "defined_type"=>3, "published_date"=>"2014-08-19 03:41:59"}
  • {"files"=>["https://ndownloader.figshare.com/files/1642364"], "description"=>"<p>Enzymes involved in fatty acid biosynthesis and catabolism identified by the annotation of the <i>C. oleifera</i> transcriptome.</p>", "links"=>[], "tags"=>["oleifera genome sequences", "snp", "Candidate Genes Related", "ssr", "Lipid Metabolism BackgroundRapidly", "Camellia oleifera", "BLAST similarity searches", "fad"], "article_id"=>1145048, "categories"=>["Biological Sciences"], "users"=>["En-Hua Xia", "Jian-Jun Jiang", "Hui Huang", "Li-ping Zhang", "Hai-Bin Zhang", "Li-zhi Gao"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0104150.t004", "stats"=>{"downloads"=>7, "page_views"=>9, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Enzymes_involved_in_fatty_acid_biosynthesis_and_catabolism_identified_by_the_annotation_of_the_C_oleifera_transcriptome_/1145048", "title"=>"Enzymes involved in fatty acid biosynthesis and catabolism identified by the annotation of the <i>C. oleifera</i> transcriptome.", "pos_in_sequence"=>0, "defined_type"=>3, "published_date"=>"2014-08-19 03:41:59"}
  • {"files"=>["https://ndownloader.figshare.com/files/1642365"], "description"=>"<p>The ten most frequently occurred PFAM domains/families in the unigenes of <i>C. oleifera</i>.</p>", "links"=>[], "tags"=>["oleifera genome sequences", "snp", "Candidate Genes Related", "ssr", "Lipid Metabolism BackgroundRapidly", "Camellia oleifera", "BLAST similarity searches", "fad"], "article_id"=>1145049, "categories"=>["Biological Sciences"], "users"=>["En-Hua Xia", "Jian-Jun Jiang", "Hui Huang", "Li-ping Zhang", "Hai-Bin Zhang", "Li-zhi Gao"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0104150.t003", "stats"=>{"downloads"=>5, "page_views"=>5, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_The_ten_most_frequently_occurred_PFAM_domains_families_in_the_unigenes_of_C_oleifera_/1145049", "title"=>"The ten most frequently occurred PFAM domains/families in the unigenes of <i>C. oleifera</i>.", "pos_in_sequence"=>0, "defined_type"=>3, "published_date"=>"2014-08-19 03:41:59"}
  • {"files"=>["https://ndownloader.figshare.com/files/1642366"], "description"=>"<p>Summary of <i>de novo</i> assembly and transcriptome annotation of <i>C. oleifera</i>.</p>", "links"=>[], "tags"=>["oleifera genome sequences", "snp", "Candidate Genes Related", "ssr", "Lipid Metabolism BackgroundRapidly", "Camellia oleifera", "BLAST similarity searches", "fad"], "article_id"=>1145050, "categories"=>["Biological Sciences"], "users"=>["En-Hua Xia", "Jian-Jun Jiang", "Hui Huang", "Li-ping Zhang", "Hai-Bin Zhang", "Li-zhi Gao"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0104150.t002", "stats"=>{"downloads"=>11, "page_views"=>3, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Summary_of_de_novo_assembly_and_transcriptome_annotation_of_C_oleifera_/1145050", "title"=>"Summary of <i>de novo</i> assembly and transcriptome annotation of <i>C. oleifera</i>.", "pos_in_sequence"=>0, "defined_type"=>3, "published_date"=>"2014-08-19 03:41:59"}
  • {"files"=>["https://ndownloader.figshare.com/files/1642367"], "description"=>"<p>Summary of the sequencing data of <i>C. oleifera</i>.</p>", "links"=>[], "tags"=>["oleifera genome sequences", "snp", "Candidate Genes Related", "ssr", "Lipid Metabolism BackgroundRapidly", "Camellia oleifera", "BLAST similarity searches", "fad"], "article_id"=>1145051, "categories"=>["Biological Sciences"], "users"=>["En-Hua Xia", "Jian-Jun Jiang", "Hui Huang", "Li-ping Zhang", "Hai-Bin Zhang", "Li-zhi Gao"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0104150.t001", "stats"=>{"downloads"=>11, "page_views"=>5, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Summary_of_the_sequencing_data_of_C_oleifera_/1145051", "title"=>"Summary of the sequencing data of <i>C. oleifera</i>.", "pos_in_sequence"=>0, "defined_type"=>3, "published_date"=>"2014-08-19 03:41:59"}

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Relative Metric

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