ORF » Species Summary » Drosophila ananassae » Dana\GF10365 cDNA ORF clone

Dana\GF10365 cDNA ORF clone, Drosophila ananassae

The following Dana\GF10365 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Dana\GF10365 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
ODh04387 XM_001957289.2
Latest version!		 Drosophila ananassae uncharacterized protein (Dana\GF10365), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00

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** 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)
    Dana\GF10365 ( XM_001957289.2 ) cDNA ORF clone, Drosophila ananassae -> XP_001957325.1 Drosophila ananassae uncharacterized protein (Dana\GF10365), mRNA.
    Price & Availability↑
    CloneID ODh04387
    Clone ID Related Accession (Same CDS sequence) XM_001957289.2
    Accession Version XM_001957289.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3279bp)
    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 1450108800000
    Organism Drosophila ananassae
    Product uncharacterized 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_001939293). On Dec 16, 2015 this sequence version replaced XM_001957289.1. ##Genome-Annotation-Data-START## Annotation Provider :: FlyBase Annotation Status :: Full annotation Annotation Version :: Release 1.04 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline URL :: http://flybase.org ##Genome-Annotation-Data-END## 

    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
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    ATGGATGCCA AACGCAAATT TAATGGTCCT TCCAATGGGC AGGCCAAAAG GCCCAGGAAT 
    CCTGATGATG ATGAGGAGAT GGACTTCGAG TCGGAATTGG CCGCCTTTGA GAACAGTGAG 
    GATATGGATC AGACTTTGTT ACTGGGAGAT GGACCGGAGA ACCAACAGAC CAGCGAACGC 
    TGGTCCCGGC CAGCGCCTCC CAAGCTAGAT CCCGCCAAAG ACAGCTTGGA ATTCCAGCAA 
    CTGGATGTTG AGAACTATCA AGGTCAACCG CTGCCCGGGA TGCCGGGTGC CCAGTTGGGT 
    CCGGTGCCTG TAGTTCGCAT GTTTGGTGTC ACCATGGATG GGAACTCTGT TTGCTGTCAC 
    GTCCACGGAT TCTGTCCGTA TTTCTACATT GAAGCACCCA AGAAGTTCGA GGAGCGCCAC 
    TGCGAGAAAC TGCAGCAAGC TCTTGATCAG AAGGTCATAG CTGATATTCG GAACAACAAG 
    GATAATGTTC AGGAAGCTGT GCTGATGGTC GAGCTGGTGG AGAAGCTTAA TATCCATGGC 
    TACAATGGCG ACAAGAAGCA ACGATACATC AAGATCTCTG TGACTCTGCC CAGATTTGTA 
    GCTGCCGCCT CTCGTTTGCT AAAGAAGGAG GTCATTATGG CGGAGATAGA CTTTCAGGAC 
    TGTCGTGCCT TTGAGAACAA CATCGACTTC GATATCCGGT TCATGGTGGA CACTTCAGTG 
    GTGGGCTGTA ACTGGATAGA GCTGCCGAAA GGTGAGTGGC GGCTGAGGAG CAGCCACAGC 
    AAGCCATTGC CCGAGTCCCG TTGCCAGATC GAAGTGGATG TCGCCTTTGA CAAGTTCATA 
    TCCCACGAAC CTGAGGGCGA ATGGGCCAAA GTGGCTCCCT TCCGCATCCT GTCCTTCGAT 
    ATCGAATGCG CTGGTCGCAA AGGAATATTC CCAGAGGCCA AAATGGATCC TGTTATCCAG 
    ATAGCCAACA TGGTCATACG GCAGGGCGAG CGCGAGCCCT TCATCAGAAA TGTTTTCACC 
    CTGGACGAGT GTGCTCCGAT TATCGGTAGC CAAGTGTTGT GTCACGACAA GGAGACCCAG 
    CTTCTGGACA GGTGGAGCGC CTTCGTCCGA GAGGTGGATC CCGACATTCT AACTGGCTAC 
    AACATAAACA ACTTCGATAT ACCCTACCTT CTCAACCGGG CTGCTCATTT GAAGGTGAAG 
    AACTTCGAGT ATCTGGGCAG GATCAAGAAC ATACGTTCGG TGATCAAGGA ACAGGTGATA 
    CAGTCCAAGC AAATGGGCCG TCGGGAAAAC CAGTACGTGA ACTTCGAAGG CAGGGTCCCC 
    TTCGATCTGC TGTTTGTGCT GCTCCGAGAC TATAAGCTAC GCTCCTACAC CCTCAACGCC 
    GTGAGCTATC ACTTCCTGCA GGAACAGAAG GAGGATGTGC ATCACAGCAT CATTACAGAT 
    CTGCAGAACG GCGATGAGCA GACGCGTCGC CGCCTGGCCA TGTACTGCCT AAAGGATGCG 
    TATCTTCCGC TGCGTTTGCT GGAGAAACTG ATGGCCATCG TCAACTATAT GGAAATGGCC 
    AGGGTGACGG GTGTACCTCT GGAGTCACTA CTTACCCGCG GACAACAAAT AAAAGTCATG 
    AGCCAACTGC TGCGCAAGGC CAGGACCAAG GGCTTCATCA TGCCCTCCTA CACCTCTCAA 
    GGATCGGATG AACAGTTCGA GGGGGCTACT GTTATTGAGC CCAAAAGAGG CTACTACGCA 
    GATCCCATAT CCACGCTGGA TTTCGCCTCT CTGTACCCGA GTATAATGAT GGCCCATAAT 
    CTCTGCTACA CCACCTTGGT TCTTGGCGGA ACTCGCGAAA AGCTAAGGGA GCAGGAAAAT 
    CTCCAGGACG ACCAAGTGGA GCGCACGCCC GCCAACAATT ATTTCGTAAA ATCCGAGGTG 
    CGAAGAGGTC TCCTGCCTGA AATCCTGGAA TCCCTGCTGG CCGCAAGAAA ACGGGCCAAG 
    AACGACCTGA AAGTGGAAAC CGATCCGTTT AAGAGGAAGG TTCTGGATGG TCGCCAGCTG 
    GCGCTGAAGA TTTCAGCCAA TTCCGTGTAC GGATTCACAG GAGCCCAGGT GGGAAAGCTG 
    CCTTGTCTGG AGATTTCCGG CAGTGTGACG GCCTACGGAC GCACCATGAT TGAGATGACC 
    AAGAACGAGG TGGAGTCGCA CTACACACAA GCCAACGGCT ACGAAAGCAA TGCGTTAGTC 
    ATTTATGGCG ACACGGACTC TGTGATGGTC AACTTTGGCG TGAAGACCTT GGAGCGGAGC 
    ATGGAACTGG GCAGGGAAGC GGCCGAGCTG GTCAGCTCCA AGTTCGTCCA TCCCATCAAG 
    CTGGAGTTCG AGAAGGTGTA CTACCCCTAC CTTCTCATTA ACAAGAAGCG CTATGCGGGA 
    TTGTACTTCA CCCGACCGGA AACCTACGAT AAGATGGACT GCAAGGGCAT TGAGACCGTG 
    CGAAGAGACA ACTCGCCCCT GGTGGCCAAC CTGATGAATA CCTGTCTCCA GAAGCTGCTC 
    ATCGAACGAG ATCCCGATGG CGCCGTGGCC TACGCCAAGC AGGTGATAGC AGATCTGCTC 
    TGCAATCGGA TAGATATATC CCACCTGGTC ATCACCAAGG AGCTGGCCAA GACTGACTAC 
    GCCGCCAAGC AGGCGCACGT GGAGCTGGCC GCCAAGATGA AGAAGAGGGA TCCCGGTACG 
    GCGCCAAAGC TGGGAGATCG AGTTCCCTAC GTTATTTGCG CTGCAGCCAA AAACACTCCC 
    GCCTACCAGA AGGCAGAAGA TCCCCTGTAT GTTCTGGAGA ACAGCGTGCC CATTGACGCT 
    ACCTACTATC TGGAGCAGCA GCTGGCAAAG CCGCTGCTGA GAATCTTCGA GCCAATTTTG 
    GGAGAGAAGG CAGAGTCCAT TCTGCTGAAG GGCGAGCACA CACGCACCCG CACTGTGGTG 
    ACCTCCAAAG TGGGCGGATT GGCTGGCTTT ATGACCAAGA AGACATCCTG TTTGGGCTGC 
    AAGTCCCTGA TGCCCAAGGG CTACGAGCAG GCCTGCCTTT GTCCGCACTG CGAGCCTCGG 
    ATGAGTGAGC TCTATCAGAA GGAAGTGGGG GCCAAGCGGG AACTGGAAGT ATCCTTTTCA 
    CGCCTGTGGA CTGAGTGCCA GCGCTGCCAG GGATCGTTGC ACGAGGAAGT GATCTGCTCC 
    AACCGGGATT GTCCCATCTT CTACATGCGA CAAAAGGTGC GCATGGATCT TGATACGCAG 
    GAGAAGCGTG TCCTCCGATT CGGCCCAGCC GATTGGTGA

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

    RefSeq XP_001957325.1
    CDS77..3355
    Translation

    Target ORF information:

    RefSeq Version XM_001957289.2
    Organism Drosophila ananassae
    Definition Drosophila ananassae uncharacterized protein (Dana\GF10365), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_001957289.2

    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
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    ATGGATGCCA AACGCAAATT TAATGGTCCT TCCAATGGGC AGGCCAAAAG GCCCAGGAAT 
    CCTGATGATG ATGAGGAGAT GGACTTCGAG TCGGAATTGG CCGCCTTTGA GAACAGTGAG 
    GATATGGATC AGACTTTGTT ACTGGGAGAT GGACCGGAGA ACCAACAGAC CAGCGAACGC 
    TGGTCCCGGC CAGCGCCTCC CAAGCTAGAT CCCGCCAAAG ACAGCTTGGA ATTCCAGCAA 
    CTGGATGTTG AGAACTATCA AGGTCAACCG CTGCCCGGGA TGCCGGGTGC CCAGTTGGGT 
    CCGGTGCCTG TAGTTCGCAT GTTTGGTGTC ACCATGGATG GGAACTCTGT TTGCTGTCAC 
    GTCCACGGAT TCTGTCCGTA TTTCTACATT GAAGCACCCA AGAAGTTCGA GGAGCGCCAC 
    TGCGAGAAAC TGCAGCAAGC TCTTGATCAG AAGGTCATAG CTGATATTCG GAACAACAAG 
    GATAATGTTC AGGAAGCTGT GCTGATGGTC GAGCTGGTGG AGAAGCTTAA TATCCATGGC 
    TACAATGGCG ACAAGAAGCA ACGATACATC AAGATCTCTG TGACTCTGCC CAGATTTGTA 
    GCTGCCGCCT CTCGTTTGCT AAAGAAGGAG GTCATTATGG CGGAGATAGA CTTTCAGGAC 
    TGTCGTGCCT TTGAGAACAA CATCGACTTC GATATCCGGT TCATGGTGGA CACTTCAGTG 
    GTGGGCTGTA ACTGGATAGA GCTGCCGAAA GGTGAGTGGC GGCTGAGGAG CAGCCACAGC 
    AAGCCATTGC CCGAGTCCCG TTGCCAGATC GAAGTGGATG TCGCCTTTGA CAAGTTCATA 
    TCCCACGAAC CTGAGGGCGA ATGGGCCAAA GTGGCTCCCT TCCGCATCCT GTCCTTCGAT 
    ATCGAATGCG CTGGTCGCAA AGGAATATTC CCAGAGGCCA AAATGGATCC TGTTATCCAG 
    ATAGCCAACA TGGTCATACG GCAGGGCGAG CGCGAGCCCT TCATCAGAAA TGTTTTCACC 
    CTGGACGAGT GTGCTCCGAT TATCGGTAGC CAAGTGTTGT GTCACGACAA GGAGACCCAG 
    CTTCTGGACA GGTGGAGCGC CTTCGTCCGA GAGGTGGATC CCGACATTCT AACTGGCTAC 
    AACATAAACA ACTTCGATAT ACCCTACCTT CTCAACCGGG CTGCTCATTT GAAGGTGAAG 
    AACTTCGAGT ATCTGGGCAG GATCAAGAAC ATACGTTCGG TGATCAAGGA ACAGGTGATA 
    CAGTCCAAGC AAATGGGCCG TCGGGAAAAC CAGTACGTGA ACTTCGAAGG CAGGGTCCCC 
    TTCGATCTGC TGTTTGTGCT GCTCCGAGAC TATAAGCTAC GCTCCTACAC CCTCAACGCC 
    GTGAGCTATC ACTTCCTGCA GGAACAGAAG GAGGATGTGC ATCACAGCAT CATTACAGAT 
    CTGCAGAACG GCGATGAGCA GACGCGTCGC CGCCTGGCCA TGTACTGCCT AAAGGATGCG 
    TATCTTCCGC TGCGTTTGCT GGAGAAACTG ATGGCCATCG TCAACTATAT GGAAATGGCC 
    AGGGTGACGG GTGTACCTCT GGAGTCACTA CTTACCCGCG GACAACAAAT AAAAGTCATG 
    AGCCAACTGC TGCGCAAGGC CAGGACCAAG GGCTTCATCA TGCCCTCCTA CACCTCTCAA 
    GGATCGGATG AACAGTTCGA GGGGGCTACT GTTATTGAGC CCAAAAGAGG CTACTACGCA 
    GATCCCATAT CCACGCTGGA TTTCGCCTCT CTGTACCCGA GTATAATGAT GGCCCATAAT 
    CTCTGCTACA CCACCTTGGT TCTTGGCGGA ACTCGCGAAA AGCTAAGGGA GCAGGAAAAT 
    CTCCAGGACG ACCAAGTGGA GCGCACGCCC GCCAACAATT ATTTCGTAAA ATCCGAGGTG 
    CGAAGAGGTC TCCTGCCTGA AATCCTGGAA TCCCTGCTGG CCGCAAGAAA ACGGGCCAAG 
    AACGACCTGA AAGTGGAAAC CGATCCGTTT AAGAGGAAGG TTCTGGATGG TCGCCAGCTG 
    GCGCTGAAGA TTTCAGCCAA TTCCGTGTAC GGATTCACAG GAGCCCAGGT GGGAAAGCTG 
    CCTTGTCTGG AGATTTCCGG CAGTGTGACG GCCTACGGAC GCACCATGAT TGAGATGACC 
    AAGAACGAGG TGGAGTCGCA CTACACACAA GCCAACGGCT ACGAAAGCAA TGCGTTAGTC 
    ATTTATGGCG ACACGGACTC TGTGATGGTC AACTTTGGCG TGAAGACCTT GGAGCGGAGC 
    ATGGAACTGG GCAGGGAAGC GGCCGAGCTG GTCAGCTCCA AGTTCGTCCA TCCCATCAAG 
    CTGGAGTTCG AGAAGGTGTA CTACCCCTAC CTTCTCATTA ACAAGAAGCG CTATGCGGGA 
    TTGTACTTCA CCCGACCGGA AACCTACGAT AAGATGGACT GCAAGGGCAT TGAGACCGTG 
    CGAAGAGACA ACTCGCCCCT GGTGGCCAAC CTGATGAATA CCTGTCTCCA GAAGCTGCTC 
    ATCGAACGAG ATCCCGATGG CGCCGTGGCC TACGCCAAGC AGGTGATAGC AGATCTGCTC 
    TGCAATCGGA TAGATATATC CCACCTGGTC ATCACCAAGG AGCTGGCCAA GACTGACTAC 
    GCCGCCAAGC AGGCGCACGT GGAGCTGGCC GCCAAGATGA AGAAGAGGGA TCCCGGTACG 
    GCGCCAAAGC TGGGAGATCG AGTTCCCTAC GTTATTTGCG CTGCAGCCAA AAACACTCCC 
    GCCTACCAGA AGGCAGAAGA TCCCCTGTAT GTTCTGGAGA ACAGCGTGCC CATTGACGCT 
    ACCTACTATC TGGAGCAGCA GCTGGCAAAG CCGCTGCTGA GAATCTTCGA GCCAATTTTG 
    GGAGAGAAGG CAGAGTCCAT TCTGCTGAAG GGCGAGCACA CACGCACCCG CACTGTGGTG 
    ACCTCCAAAG TGGGCGGATT GGCTGGCTTT ATGACCAAGA AGACATCCTG TTTGGGCTGC 
    AAGTCCCTGA TGCCCAAGGG CTACGAGCAG GCCTGCCTTT GTCCGCACTG CGAGCCTCGG 
    ATGAGTGAGC TCTATCAGAA GGAAGTGGGG GCCAAGCGGG AACTGGAAGT ATCCTTTTCA 
    CGCCTGTGGA CTGAGTGCCA GCGCTGCCAG GGATCGTTGC ACGAGGAAGT GATCTGCTCC 
    AACCGGGATT GTCCCATCTT CTACATGCGA CAAAAGGTGC GCATGGATCT TGATACGCAG 
    GAGAAGCGTG TCCTCCGATT CGGCCCAGCC GATTGGTGA

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

  • PubMed

    Assembly reconciliation.
    Bioinformatics (Oxford, England)24(1)42-5(2008 Jan)
    Zimin AV,Smith DR,Sutton G,Yorke JA


    Evolution of genes and genomes on the Drosophila phylogeny.
    Nature450(7167)203-18(2007 Nov)
    ,Clark AG,Eisen MB,Smith DR,Bergman CM,Oliver B,Markow TA,Kaufman TC,Kellis M,Gelbart W,Iyer VN,Pollard DA,Sackton TB,Larracuente AM,Singh ND,Abad JP,Abt DN,Adryan B,Aguade M,Akashi H,Anderson WW,Aquadro CF,Ardell DH,Arguello R,Artieri CG,Barbash DA,Barker D,Barsanti P,Batterham P,Batzoglou S,Begun D,Bhutkar A,Blanco E,Bosak SA,Bradley RK,Brand AD,Brent MR,Brooks AN,Brown RH,Butlin RK,Caggese C,Calvi BR,Bernardo de Carvalho A,Caspi A,Castrezana S,Celniker SE,Chang JL,Chapple C,Chatterji S,Chinwalla A,Civetta A,Clifton SW,Comeron JM,Costello JC,Coyne JA,Daub J,David RG,Delcher AL,Delehaunty K,Do CB,Ebling H,Edwards K,Eickbush T,Evans JD,Filipski A,Findeiss S,Freyhult E,Fulton L,Fulton R,Garcia AC,Gardiner A,Garfield DA,Garvin BE,Gibson G,Gilbert D,Gnerre S,Godfrey J,Good R,Gotea V,Gravely B,Greenberg AJ,Griffiths-Jones S,Gross S,Guigo R,Gustafson EA,Haerty W,Hahn MW,Halligan DL,Halpern AL,Halter GM,Han MV,Heger A,Hillier L,Hinrichs AS,Holmes I,Hoskins RA,Hubisz MJ,Hultmark D,Huntley MA,Jaffe DB,Jagadeeshan S,Jeck WR,Johnson J,Jones CD,Jordan WC,Karpen GH,Kataoka E,Keightley PD,Kheradpour P,Kirkness EF,Koerich LB,Kristiansen K,Kudrna D,Kulathinal RJ,Kumar S,Kwok R,Lander E,Langley CH,Lapoint R,Lazzaro BP,Lee SJ,Levesque L,Li R,Lin CF,Lin MF,Lindblad-Toh K,Llopart A,Long M,Low L,Lozovsky E,Lu J,Luo M,Machado CA,Makalowski W,Marzo M,Matsuda M,Matzkin L,McAllister B,McBride CS,McKernan B,McKernan K,Mendez-Lago M,Minx P,Mollenhauer MU,Montooth K,Mount SM,Mu X,Myers E,Negre B,Newfeld S,Nielsen R,Noor MA,O'Grady P,Pachter L,Papaceit M,Parisi MJ,Parisi M,Parts L,Pedersen JS,Pesole G,Phillippy AM,Ponting CP,Pop M,Porcelli D,Powell JR,Prohaska S,Pruitt K,Puig M,Quesneville H,Ram KR,Rand D,Rasmussen MD,Reed LK,Reenan R,Reily A,Remington KA,Rieger TT,Ritchie MG,Robin C,Rogers YH,Rohde C,Rozas J,Rubenfield MJ,Ruiz A,Russo S,Salzberg SL,Sanchez-Gracia A,Saranga DJ,Sato H,Schaeffer SW,Schatz MC,Schlenke T,Schwartz R,Segarra C,Singh RS,Sirot L,Sirota M,Sisneros NB,Smith CD,Smith TF,Spieth J,Stage DE,Stark A,Stephan W,Strausberg RL,Strempel S,Sturgill D,Sutton G,Sutton GG,Tao W,Teichmann S,Tobari YN,Tomimura Y,Tsolas JM,Valente VL,Venter E,Venter JC,Vicario S,Vieira FG,Vilella AJ,Villasante A,Walenz B,Wang J,Wasserman M,Watts T,Wilson D,Wilson RK,Wing RA,Wolfner MF,Wong A,Wong GK,Wu CI,Wu G,Yamamoto D,Yang HP,Yang SP,Yorke JA,Yoshida K,Zdobnov E,Zhang P,Zhang Y,Zimin AV,Baldwin J,Abdouelleil A,Abdulkadir J,Abebe A,Abera B,Abreu J,Acer SC,Aftuck L,Alexander A,An P,Anderson E,Anderson S,Arachi H,Azer M,Bachantsang P,Barry A,Bayul T,Berlin A,Bessette D,Bloom T,Blye J,Boguslavskiy L,Bonnet C,Boukhgalter B,Bourzgui I,Brown A,Cahill P,Channer S,Cheshatsang Y,Chuda L,Citroen M,Collymore A,Cooke P,Costello M,D'Aco K,Daza R,De Haan G,DeGray S,DeMaso C,Dhargay N,Dooley K,Dooley E,Doricent M,Dorje P,Dorjee K,Dupes A,Elong R,Falk J,Farina A,Faro S,Ferguson D,Fisher S,Foley CD,Franke A,Friedrich D,Gadbois L,Gearin G,Gearin CR,Giannoukos G,Goode T,Graham J,Grandbois E,Grewal S,Gyaltsen K,Hafez N,Hagos B,Hall J,Henson C,Hollinger A,Honan T,Huard MD,Hughes L,Hurhula B,Husby ME,Kamat A,Kanga B,Kashin S,Khazanovich D,Kisner P,Lance K,Lara M,Lee W,Lennon N,Letendre F,LeVine R,Lipovsky A,Liu X,Liu J,Liu S,Lokyitsang T,Lokyitsang Y,Lubonja R,Lui A,MacDonald P,Magnisalis V,Maru K,Matthews C,McCusker W,McDonough S,Mehta T,Meldrim J,Meneus L,Mihai O,Mihalev A,Mihova T,Mittelman R,Mlenga V,Montmayeur A,Mulrain L,Navidi A,Naylor J,Negash T,Nguyen T,Nguyen N,Nicol R,Norbu C,Norbu N,Novod N,O'Neill B,Osman S,Markiewicz E,Oyono OL,Patti C,Phunkhang P,Pierre F,Priest M,Raghuraman S,Rege F,Reyes R,Rise C,Rogov P,Ross K,Ryan E,Settipalli S,Shea T,Sherpa N,Shi L,Shih D,Sparrow T,Spaulding J,Stalker J,Stange-Thomann N,Stavropoulos S,Stone C,Strader C,Tesfaye S,Thomson T,Thoulutsang Y,Thoulutsang D,Topham K,Topping I,Tsamla T,Vassiliev H,Vo A,Wangchuk T,Wangdi T,Weiand M,Wilkinson J,Wilson A,Yadav S,Young G,Yu Q,Zembek L,Zhong D,Zimmer A,Zwirko Z,Jaffe DB,Alvarez P,Brockman W,Butler J,Chin C,Gnerre S,Grabherr M,Kleber M,Mauceli E,MacCallum I


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