ORF » Species Summary » Trichinella spiralis » Tsp_11122 cDNA ORF clone

Tsp_11122 cDNA ORF clone, Trichinella spiralis

The following Tsp_11122 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Tsp_11122 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
OTr118327 XM_003381976.1
Latest version!		 Trichinella spiralis reverse transcriptase family protein (Tsp_11122) mRNA, complete cds. pcDNA3.1-C-(k)DYK or customized vector 14-16 $510.30
$729.00

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    Tsp_11122 ( XM_003381976.1 ) cDNA ORF clone, Trichinella spiralis -> XP_003382024.1 Trichinella spiralis reverse transcriptase family protein (Tsp_11122) mRNA, complete cds.
    Price & Availability↑
    CloneID OTr118327
    Clone ID Related Accession (Same CDS sequence) XM_003381976.1
    Accession Version XM_003381976.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2574bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2011-06-30
    Organism Trichinella spiralis
    Product reverse transcriptase family protein
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. This record is derived from an annotated genomic sequence (NW_003526940). Trichinella spiralis is a roundworm that cause most of the human trichinella infections and deaths around the world. Its pathogenicity is higher than that of other trichinella species due to the higher number of newborn larvae produced by the females and for the stronger immune reaction induced in humans. The life cycle of the parasite begins when a person or an animal eats contaminated meat containing larvae. T. spiralis is a basal nematode with a well-defined phylogenetic position near the root of the phylum Nematoda. The genome size estimate based on flow sorted nuclei stained with PI (Spencer Johnston, Texas A&M University) is 1C = 71.3 +/1 1.2 Mb. The strain being sequenced (ISS 195) was obtained from the laboratory of Judith Appleton (Cornell University) and has been maintained in rats since 1970. Worm isolation and DNA extraction was performed by Dante Zarlenga (USDA) This assembly consists of plasmid, fosmid and BAC end sequences. The data were assembled using the assembly engine, PCAP (Xiaoqiu Huang et. al. 2006). Our goal is to explore this WGS draft sequence of T. spiralis in several ways: i) to provide a better understanding of evolutionary biology by identifying gene loss or gain across the phylum Nematoda and clarify evolution of genome architecture (synteny, operons); ii) help identify RNA genes and regulatory regions; and iii) better define proteins involved in nematode parasitism that impact health and disease and are relevant to both host-parasite relationships and basic biological processes.. We masked the repeats by using RECON (Bao and Eddy, 2002) and RepeatMasker (A.F.A. Smit, R. Hubley & P. Green RepeatMasker at http://repeatmasker.org). Then the Ribosomal RNA genes were identified using RNAmmer ((http://www.cbs.dtu.dk/cgi-bin/nph-sw_request?rnammer ). Transfer RNA genes were identified with tRNAscan-SE (Lowe and Eddy, 1997). Non-coding RNAs, such as microRNAs, were identified by sequence homology search of the Rfam database (http://selab.janelia.org/software.html). Protein-coding genes were predicted using a combination of ab initio programs (Snap, Korf, 2004 and Fgenesh, Softberry, Corp) and an inhouse evidence based program Eannot (Eannot Ding et al., 2004) which uses mRNA, EST and protein alignment information from same species or cross-species to aid in gene structure determination. A consensus gene set from the above prediction algorithms will be generated, using a logical, hierarchical approach. Gene product naming was determined by BER (JCVI: http://ber.sourceforge.net ). For information regarding this assembly or project, or any other GSC genome project, please visit our Genome Groups web page (http://genome.wustl.edu/genome_group_index.cgi) and email the designated contact person. For specific questions regarding the T. spiralis genome project contact Makedonka Mitreva [email protected] (Washington University School of Medicine). The National Human Genome Research Institute (NHGRI) of the National Institutes of Health (NIH) provided funds for this project. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    ATGCTGCGTG ATCGACTGGT TATTGGCTTG AGAGAAGAAG AATTACAGCT CCGTCTGTTT 
    TCTCGAAAAA ATTTGACTTT CGAATCAGCC CTGGAAGAAG TACTATCAGC AGAAGCCGCC 
    GCTCGACATA CCCGAGAACA CACAGCAAAC TCATTAGCAT CCGTTGACAA GCTGGCCTCA 
    AGGTTTCCTG ATTCACTGCT ACTAAACAAT CTCAGAGCAT CGGCAAAACG TGATCAATCA 
    TGCACGTCGT CACGAAAGAT TAGAGTAACC GTTGTCATCG AAAACTTTCC GTGCGAAACG 
    GAAATTGACA CTGGCTCAGA ATACACTATT CTCTCTGAAT ATGTTTTCCG AAAGTTGTCA 
    CAAGAAAGAA AAATTCAGTT GGAAACGATC ACTCTTAAAC TGGCAACTTT TCAGGGAGAA 
    CTGGTAAAAG TGAAAGAAAG CTGTTCGGTA AATGTGCAAT ATGGAAATAT CCATCGTACA 
    CTGACGCTTA TTGTCGCGAA AGGCCACTGT CCAAATCTGC TCGGATTTAA TTGGTTTGAA 
    CCGCTTGGCA TATATCTAAG CGGTGTACAT CATTTGACAT CAAATCCTCC ACAAATTTCA 
    GAAGTATTGC GAAAATACCG ATCTGTATTC ACAGAAGAAT TGGGTATGTA CGTTGGAAAA 
    CCAGTATCTT TAGACTTGGA TCCAAACGTT ACGCCGATTT GCATGAAGGC GCGAAAGGTT 
    CCCTTTGCAT TGAGAGAAAA AATTGATGCG GAATTGGATA AGCTGGTTGA ACAAGAAGTT 
    CTAGAACCAG TAGATCATCC AGTTTGGTCG ACTCCAATCG TCACACCAGT GAAACCTGAC 
    GGAACCGTAC GCATTTGTGG AGATTACAAA TGCACTATAA ATAAGGCTTT GAGAAAGCAC 
    GCCTACCCGA TACCTGCTGT CAATCAATTG TTAGCGTCAC TTTCAGGAGG AAAAGTTTTC 
    GCTAAATTAG ATTTAGCACA GGCATTTCAA CAATTGACAG TTGACGACGC TACAGCCGAA 
    GCGCAAACAA TCATCACTCA TCGTGGCGCT TTTCGAGTCA AACGTTTGCA ATTTGGCATC 
    AGCGCTGCTC CTGGAGTATT TCAAAATGTC ATTGATAAAA CCGTCGCTGG CATTCAAGGA 
    GTGTTGCCAT ACTTCAACGA CATCCTCATT GCAGCGAGTG ATGAGAAAGA GCTAGCAAAT 
    CGTCTGGAAA CCGTTCTTCA CCGCTTCGCA AAAGCAGGAC TGCGACTTAA ATCAGATAAG 
    AGTAAATTCT GTCTTCCGCG CGTTGAATTT TTAGGCTTCG AAGTTGACGC AACAGGAATC 
    CATCCTGCTA AAGCAAAGGT GCAAGCAATT CAAGACGCTC CGGAGTTCTA CGCAAAATAT 
    ACAACCAATC AAAGTGTGAA GCGGCATGTC TTTGATGAAT ATTCAGGGTC TACCCCATTA 
    TTGTCATCTG ATGCGGTTCT AACACATTAC GACGGTAAAA AGCCGTTAGT ATTAGTATGC 
    GATGCATCGC CACATGGTAT TGGCGCGGTT CTTTGCCACA AGTTGTCATC AACGCAAGTA 
    ATTCCAATTG CGTTTTATTC ACGAACATTA TCCGCGACCG AAAGGAATTA CGCACAAATT 
    GATAAAGAAG CATTGGCAGT TATTGCTGGC GTAAAGAAAT TCCATGAGTA TCTGTATGGT 
    CGTCAATTCA CTATCATAAC AGATCACAAA CCACTGTTGG GAGTGTTCGT GCCAAAGAAG 
    GAAACACCTC AAATTCTGTC ACCAAGAATG TTACGTTGGT CGATTCTTCT GAATGCATAC 
    GATTATACCA TAAATTACCG ACCCGGCAAA GAAATAGCAA ATGCAGATGC AGTAAGTCGT 
    TTGCCAAAGC AATCAACAGA AAATGACGAC TCACACAACT CAGTTATTCT TTTGTTAGAG 
    ACTATAGACA TTTTTCCGCT TCACAGCAAG GATATTGCAC GAATAACTGC AAAGGATCTG 
    ATTCTCACAC GAGTTTTAAG CTGGGCATGG AGGGGATGGC TGAAATCTGT ATCAGACGAA 
    CGACTGAAAC CTTACGTGAC GCGCCAACAT GAAATCTCCA TTCACAATGG TTGTTTGCTA 
    TGGGGCAGTA GAGTGATAAT CCCACTCCAA GCACGTCACA AAATTCTCAA GGAATTGCAC 
    ATAGGTCATC CAGGCATCGT ACGAATGAAA GCACTTGCCC GAAGCTACGT TTGGTGGCCA 
    AAAATGGACA GTGAAATCGA AAATTTGGTA TACGCTAGGA ATTATTCTTC GGAGAAAACC 
    TGGAAACCAG CGACAGTTGT GACTCAGACA GGCCCACCGT CCTACCAGGT ACAGACCGAA 
    GACGGTCAAC TGTGGCCCAG ACACATAGAC CAGAGAAAAT CGAATCACAG GAAGATAAAG 
    CTGGAAAAAA AAACAGTTGA AGTTATACCT GAGGAAGATA CAGCAGTTGT CACAACACAA 
    AGAGAAGAAA ATGCGGCAGC GTCACCATCA CCTGATATTG AAAGTGTTGG ACAACAGAGA 
    TCGTCTACGC GTAAAAGAAG ACCGCCAGAA CGGCTCAGAG ACTACGAATG TTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_003382024.1
    CDS1..2574
    Translation

    Target ORF information:

    RefSeq Version XM_003381976.1
    Organism Trichinella spiralis
    Definition Trichinella spiralis reverse transcriptase family protein (Tsp_11122) mRNA, complete cds.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_003381976.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    ATGCTGCGTG ATCGACTGGT TATTGGCTTG AGAGAAGAAG AATTACAGCT CCGTCTGTTT 
    TCTCGAAAAA ATTTGACTTT CGAATCAGCC CTGGAAGAAG TACTATCAGC AGAAGCCGCC 
    GCTCGACATA CCCGAGAACA CACAGCAAAC TCATTAGCAT CCGTTGACAA GCTGGCCTCA 
    AGGTTTCCTG ATTCACTGCT ACTAAACAAT CTCAGAGCAT CGGCAAAACG TGATCAATCA 
    TGCACGTCGT CACGAAAGAT TAGAGTAACC GTTGTCATCG AAAACTTTCC GTGCGAAACG 
    GAAATTGACA CTGGCTCAGA ATACACTATT CTCTCTGAAT ATGTTTTCCG AAAGTTGTCA 
    CAAGAAAGAA AAATTCAGTT GGAAACGATC ACTCTTAAAC TGGCAACTTT TCAGGGAGAA 
    CTGGTAAAAG TGAAAGAAAG CTGTTCGGTA AATGTGCAAT ATGGAAATAT CCATCGTACA 
    CTGACGCTTA TTGTCGCGAA AGGCCACTGT CCAAATCTGC TCGGATTTAA TTGGTTTGAA 
    CCGCTTGGCA TATATCTAAG CGGTGTACAT CATTTGACAT CAAATCCTCC ACAAATTTCA 
    GAAGTATTGC GAAAATACCG ATCTGTATTC ACAGAAGAAT TGGGTATGTA CGTTGGAAAA 
    CCAGTATCTT TAGACTTGGA TCCAAACGTT ACGCCGATTT GCATGAAGGC GCGAAAGGTT 
    CCCTTTGCAT TGAGAGAAAA AATTGATGCG GAATTGGATA AGCTGGTTGA ACAAGAAGTT 
    CTAGAACCAG TAGATCATCC AGTTTGGTCG ACTCCAATCG TCACACCAGT GAAACCTGAC 
    GGAACCGTAC GCATTTGTGG AGATTACAAA TGCACTATAA ATAAGGCTTT GAGAAAGCAC 
    GCCTACCCGA TACCTGCTGT CAATCAATTG TTAGCGTCAC TTTCAGGAGG AAAAGTTTTC 
    GCTAAATTAG ATTTAGCACA GGCATTTCAA CAATTGACAG TTGACGACGC TACAGCCGAA 
    GCGCAAACAA TCATCACTCA TCGTGGCGCT TTTCGAGTCA AACGTTTGCA ATTTGGCATC 
    AGCGCTGCTC CTGGAGTATT TCAAAATGTC ATTGATAAAA CCGTCGCTGG CATTCAAGGA 
    GTGTTGCCAT ACTTCAACGA CATCCTCATT GCAGCGAGTG ATGAGAAAGA GCTAGCAAAT 
    CGTCTGGAAA CCGTTCTTCA CCGCTTCGCA AAAGCAGGAC TGCGACTTAA ATCAGATAAG 
    AGTAAATTCT GTCTTCCGCG CGTTGAATTT TTAGGCTTCG AAGTTGACGC AACAGGAATC 
    CATCCTGCTA AAGCAAAGGT GCAAGCAATT CAAGACGCTC CGGAGTTCTA CGCAAAATAT 
    ACAACCAATC AAAGTGTGAA GCGGCATGTC TTTGATGAAT ATTCAGGGTC TACCCCATTA 
    TTGTCATCTG ATGCGGTTCT AACACATTAC GACGGTAAAA AGCCGTTAGT ATTAGTATGC 
    GATGCATCGC CACATGGTAT TGGCGCGGTT CTTTGCCACA AGTTGTCATC AACGCAAGTA 
    ATTCCAATTG CGTTTTATTC ACGAACATTA TCCGCGACCG AAAGGAATTA CGCACAAATT 
    GATAAAGAAG CATTGGCAGT TATTGCTGGC GTAAAGAAAT TCCATGAGTA TCTGTATGGT 
    CGTCAATTCA CTATCATAAC AGATCACAAA CCACTGTTGG GAGTGTTCGT GCCAAAGAAG 
    GAAACACCTC AAATTCTGTC ACCAAGAATG TTACGTTGGT CGATTCTTCT GAATGCATAC 
    GATTATACCA TAAATTACCG ACCCGGCAAA GAAATAGCAA ATGCAGATGC AGTAAGTCGT 
    TTGCCAAAGC AATCAACAGA AAATGACGAC TCACACAACT CAGTTATTCT TTTGTTAGAG 
    ACTATAGACA TTTTTCCGCT TCACAGCAAG GATATTGCAC GAATAACTGC AAAGGATCTG 
    ATTCTCACAC GAGTTTTAAG CTGGGCATGG AGGGGATGGC TGAAATCTGT ATCAGACGAA 
    CGACTGAAAC CTTACGTGAC GCGCCAACAT GAAATCTCCA TTCACAATGG TTGTTTGCTA 
    TGGGGCAGTA GAGTGATAAT CCCACTCCAA GCACGTCACA AAATTCTCAA GGAATTGCAC 
    ATAGGTCATC CAGGCATCGT ACGAATGAAA GCACTTGCCC GAAGCTACGT TTGGTGGCCA 
    AAAATGGACA GTGAAATCGA AAATTTGGTA TACGCTAGGA ATTATTCTTC GGAGAAAACC 
    TGGAAACCAG CGACAGTTGT GACTCAGACA GGCCCACCGT CCTACCAGGT ACAGACCGAA 
    GACGGTCAAC TGTGGCCCAG ACACATAGAC CAGAGAAAAT CGAATCACAG GAAGATAAAG 
    CTGGAAAAAA AAACAGTTGA AGTTATACCT GAGGAAGATA CAGCAGTTGT CACAACACAA 
    AGAGAAGAAA ATGCGGCAGC GTCACCATCA CCTGATATTG AAAGTGTTGG ACAACAGAGA 
    TCGTCTACGC GTAAAAGAAG ACCGCCAGAA CGGCTCAGAG ACTACGAATG TTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

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