SupplementaryTableS1. The list of antibiotics testedand their concentrations
Type / Concentration (µg or IU /piece)Gentamicin / 10 µg
Piperacillin / 100 µg
Choramphenicol / 30 µg
Ciprofloxacin / 5 µg
Tetracycline / 30 µg
Polymyxin / 300IU
Penicillin / 10 IU
Cefoxintin / 30 µg
Amoxicillin / 10 µg
Erythromycin / 15 µg
Oxacillin / 1 µg
Norfloxacin / 10 µg
Carbenicillin / 100 µg
Roxthromycin / 15 µg
Cefoperazone / 75 µg
Cephalexin / 30 µg
Bacitracin / 0.04 IU
Vancomycin / 30 µg
Ampicillin / 10 µg
Ceftazidime / 30 µg
Rifampicin / 5 µg
Novobiocin / 5 µg
Streptomycin / 10 µg
Kanamycin / 30 µg
Ofloxacin / 5 µg
Neomycin / 30 µg
Supplementary TableS2. The list of test items in API-20NE
Carbon sourcesGlucose / Arabinose
Mannose / Mannitol
N-acetyl glucosamine / Maltose
Gluconate / Decylic acid
Adipic acid / Malic acid
Sodium citrate / Phenylacetic acid
Biochemical characteristics
Nitrate reduction / Indole production
Glucose fermentation
Enzyme sources
Arginine dihydrolase / Urease
β-glucosidase / Gelatinase
β-galactosidase
Supplementary TableS3.The list of enzymes in API-ZYM
Enzyme sourcesAklaline phosphatase / Esterase (C-4)
Esterase lipase (C-8) / Lipase (C-14)
Leucine aminopeptidase / Valine aminopeptidase
Cystine aminopeptidase / Trypsin
Chymotrypsin / Acid phosphatase
Phosphohydrolase / α-galactosidase
β-galactosidase / β-glucuronidase
α-glucosidase / β-glucosidase
N-acetyl-β-glucosaminidase / α-mannosidase
α-fucosidase
Supplementary Table. S4.Primers for the PCR amplification and sequencing of gyrB.
The amplification and sequencing of DNA gyrase subunit B genes (gyrB) weredesigned by using consensus amino acid sequences of gyrases from Escherichia coli, Pseudomonas putida, andBacillus subtilis by Yamamoto [39].
N, any; R, A or G; S, C or G; Y, Cor T; M, A or C.
Primer / Sequence (5’–3’)Amplification / UP-1 / GAAGTCATCATGACCGTTCTGCAYGCNGGNGGNAARTTYGA
UP-2r / AGCAGGGTACGGATGTGCGAGCCRTCNACRTCNGCRTCNGTCAT
Sequencing / UP-1S / GAAGTCATCATGACCGTTCTGCA
UP-2Sr / AGCAGGGTACGGATGTGCGAGCC
Supplementary TableS5The gyrB sequences of the strains DQW12E81-30T, DQW12E6-37-1, Pararhodobacteraggregans DSM 18938T, RhodobacterveldkampiiCGMCC 1.5006T and RoseinatronobacterthiooxidansDSM 13087T
DQW12E81-30T / GGTCCTGCGCGTCGTATGATGACGATCTTGTGGTACGCAGCTTGTCGAGGTTGAATTCGTCGCGCCCGATCCCGGTGCCAAGCGCGGTGATGAGGGTTCCGATTTCCTGGCTGCTCAGCATCCGGTCAAAGCGGGCCCGTTCCACGTTCAGAATCTTGCCCCGCAGCGGCAGAACGGCCTGGTTCGCCCGGGAACGCCCCTGCTTGGCCGAACCACCGGCCGAGTCGCCCTCGACCAGGAACAGTTCCGAACGTGCAGGATCCTTCTCCTGACAGTCCGCCAGCTTGCCCGGCAGGCTGGCCACATCCATTGCCGTCTTGCGGCGCGTCAGTTCGCGTGCCTTGCGCGCCGCCTCGCGCGCCAGCGCCGCCTCGATGATCTTGCCGACGATCTGCTTGGCATGGGCGGGATTCTCCTCGAACCACTCGCTCAGCTTTTCGTTCAGAAGGTTCTCGACCGCCGGTCGCACCTCGGAACTGACCAGCTTGTCCTTGGTCTGGCTGGAGAATTTCGGATCGGGCACCTTGACGGAAAGAACGCAGGTCAGCCCCTCGCGGGCATCATCGCCCGTGAAGCTCACCTTCTCTTTCTTGGCGATGCCGGAGGATTGCGCATAGATGTTCATCGTCCGGGTCAGCGCGCCACGAAAGCCCGCCAGGTGCGTGCCGCCGTCGCGCTGGGGAATGTTGTTGGTGAAGGGCAGCACCGTTTCGTGGTAGCTGTCGTTCCACCACATCGCCACCTCGATACCGATCCCGTCGCGTTCGCCGGTGATGAAGATCGGCTCGGGGATCAATGCGGTTTTCGAACGGTCGAGGTAGCGCACGAATTCGCGCACGCCACCATCGTAGAACAGTTCCGACCGGAGCGGTTCGGCCGGACGTTCGTCCTCAAGGATGATCCGCACGCCCGAGTTCAGGAAGGCGAGCTCGCGCAGGCGGTTCTCCAGCGTCTTGAAGCTGTAGTCGAGGTTCGAGAACGTGCTGGTCGAGGCCAGGAACCGCACCTCGGTGCCCTTCTTGCCATGGGCCTCGCCCACCACCTCCAGGTGCCTGACTGTTTCGCCGCGTTCGAAGCGGGCATAGTGTTCCTTGCCATTGCGCCAGATGCGCAGGTCAAGCCAGTCGGAAAGCGCGTTCACCACAGAAACGCCCACGCCATGCAGGCCGCCCGACACCTTGTAGCGTCTGATCAATCTGAGGTATTTAG (1209 bp)DQW12E6-37-1 / GGGGGCTGGGCTCGTATGATGACGATCTTGTGGTACGCAGCTTGTCGAGGTTGAATTCGTCGCGCCCGATCCCGGTGCCAAGCGCGGTGATGAGGGTTCCGATTTCCTGGCTGCTCAGCATCCGGTCAAAGCGGGCCCGTTCCACGTTCAGAATCTTGCCCCGCAGCGGCAGAACGGCCTGGTTCGCCCGGGAACGCCCCTGCTTGGCCGAACCACCGGCCGAGTCGCCCTCGACCAGGAACAGTTCCGAACGTGCAGGATCCTTCTCCTGACAGTCCGCCAGCTTGCCCGGCAGGCTGGCCACATCCATTGCCGTCTTGCGGCGCGTCAGTTCGCGTGCCTTGCGCGCCGCCTCGCGCGCCAGCGCCGCCTCGATGATCTTGCCGACGATCTGCTTGGCATGGGCGGGATTCTCCTCGAACCACTCGCTCAGCTTTTCGTTCAGAAGGTTCTCGACCGCCGGTCGCACCTCGGAACTGACCAGCTTGTCCTTGGTCTGGCTGGAGAATTTCGGATCGGGCACCTTGACGGAAAGAACGCAGGTCAGCCCCTCGCGGGCATCATCGCCCGTGAAGCTCACCTTCTCTTTCTTGGCGATGCCGGAGGATTGCGCATAGATGTTCATCGTCCGGGTCAGCGCGCCACGAAAGCCCGCCAGGTGCGTGCCGCCGTCGCGCTGGGGAATGTTGTTGGTGAAGGGCAGCACCGTTTCGTGGTAGCTGTCGTTCCACCACATCGCCACCTCGATACCGATCCCGTCGCGTTCGCCGGTGATGAAGATCGGCTCGGGGATCAATGCGGTTTTCGAACGGTCGAGGTAGCGCACGAATTCGCGCACGCCACCATCGTAGAACAGTTCCGACCGGAGCGGTTCGGCCGGACGTTCGTCCTCAAGGATGATCCGCACGCCCGAGTTCAGGAAGGCGAGCTCGCGCAGGCGGTTCTCCAGCGTCTTGAAGCTGTAGTCGAGGTTCGAGAACGTGCTGGTCGAGGCCAGGAACCGCACCTCGGTGCCCTTCTTGCCATGGGCCTCGCCCACCACCTCCAGGTGCCTGACTGTTTCGCCGCGTTCGAAGCGGGCATAGTGTTCCTTGCCATTGCGCCAGATGCGCAGGTCAAGCCAGTCGGAAAGCGCGTTCACCACAGAAACGCCCACGCCATGCAGGCCGCCCGACACCTGTAGCTGTCTGATCAAAAGTAGGATTTAG (1208 bp)
Pararhodobacteraggregans DSM 18938T / GATCATTCGCTCGGTATGATGACGATCTTGTGGTAGCGCAGCTTGCCGATGTCGAATTCGTCGCGGCCGATGCCGGTGCCCATGGCGGTGATGAGCGTGCCGATCTCCTGGCTGGACAGCATCCGGTCGAAGCGCGCGCGTTCCACGTTCAGGATCTTGCCGCGCAAGGGCAGCACGGCCTGATTGTGGCGCGAGCGGCCCTGCTTGGCCGAACCGCCGGCCGAGTCACCCTCGACCAGGAAGAGTTCGGATTTCGCCGGATCGCGTTCCTGGCAATCGGCCAGTTTCCCGGGCAGCGAGGCCACGTCCAGCGCCGTCTTGCGCCGCGTCAGGTCGCGGGCCTTGCGCGCGGCCTCACGGGCCAGCGCCGCCTCGACGATCTTGCCGACGATCTGGCGGGCGGGGCCCGGGTTCTCCTCGAACCATTCGCTCAGCTTTTCGTTGACCAGGTTCTCGACCGCCGGGCGCACCTCGGAACTGACCAGCTTGTCCTTGGTCTGCGAGCTGAATTTGGGGTCGGGCACCTTGACCGAGAGCACGCAGGTCAGCCCCTCGCGCGCGTCATCGCCGGTGAAAGCGATCTTCTCTTTCTTGGCGATCCCGCTTTCCTGGGCGTATTTGGTGATCGTCCGGGTCAGCGCGCCACGGAAGCCCGCCATATGGGTGCCGCCGTCGCGCTGGGGGATGTTGTTGGTGAAGGGCAGCACGTTCTCGTGGTAGCTGTCGTTCCACCACATCGCCACTTCGACGCCGATCCCGTCCTTCTCGCCCGAGATGAAGATCGGCTCGGGCATCACCGGGTTCTTGGACCGGTCGAGGTAGCGCACGAATTCGCGCACGCCGCCTTCATAGAGGAATTCGGTCTTCAGCGGTTCGGCGGGGCGCTCATCCTCGATCAGGATATGGACGCCCGAGTTCAGGAACGCGAGTTCGCGCAGCCGGTTCTCCAGCGTCTTGAAGACGTAATCGAGGTTCGAGAAGGTGCCGTCCGGCCGGTTGGTCTTGGCCGAGGCCATGAAGCGCACCTCGGTGCCCTTCTGGCCGGGTTCGGCCGGGCCTTCCTCGCGCAGGTGGATCTTGGTGTCGCCGTTCTCGAACCGTGCGTACCATTCCTTGCCGCCGCGCCAGATGCGCAGTTCCAGCCAGTCGGACAGCGCGTTCACCACCGAAACGCCGACCCCGTGCAGACCGCCCGAGACGTTGTAGCTGTTCGGGGGGGTTGGGCACGTAGGG (1233 bp)
RhodobacterveldkampiiCGMCC 1.5006T / AAACAAGGCTCGTATGATGATGATCTTGTGGTAGCGCAGCTTGCCGATGTCGAACTCGTCGCGCCCGATGCCCGCGCCGAGCGCGGTGATCAGCGTGCCCACGGTTTCCGAGGACAGCATCCGGTCGAAGCGCGCGCGCTCCACGTTCAGGATCTTGCCCCGGAGCGGCAGAACCGCCTGGTTCTTCCGCGCGCGCCCCTGCTTGGCCGAGCCGCCGGCCGAGTCCCCCTCGACGATGAACAGTTCCGACAGCGCCGGGTCCTTCTCCTGGCAATCGGCCAGCTTGCCGGGGAGCGAGGCCACGTCCATCGCGGTCTTGCGCCGGGTCATCTCGCGGGCCTTGCGCGCCGCCTCGCGCGCCAGCGCCGCCTCGACGATCTTGCCAACGATGCCCTTGGCGGCGGCCGGGTTCTCCTCGAACCACTCGGCGAGCTTCTCGTTCACGAGGTTCTCGACCGCCGGGCGCACCTCGGACGAAACCAGCTTGTCCTTGGTCTGGCTGGAGAACTTGGGGTCCGGCACCTTGACCGACAGAACGCAGGTCAGCCCCTCGCGCGCGTCGTCGCCGGTGAAATCCACCTTCTCGCGCCGGGCGATCCCGCTGTCCTGCGCATATTTGGTGATGGTCCGCGTCAGCGCGCCCCGGAAGCCCGCAAGGTGGGTGCCGCCGTCACGCTGCGGAATGTTGTTGGTGAAGGGCAGCACCGTCTCGTGGTAGCTGTCGTTCCACCACATCGCGATCTCGACCCCGATCCCGCCGCGCTCGCCCGTGATGAAGATCGGCTCGGGCATCACCGGGCTCTTCGATCGGTCGAGATAACGGACGAACTCGCGCACGCCGCCCTCGTAGAACAGCTCGCTGTGCAGCGGCTCCGCAGGGCGCTCGTCCTCGAGCAGGATACGGACACCGGAGTTGAGGAAGGCAAGCTCCCTCAGGCGGTTCTCGAGCGTCTTGAAGCTGTAGTCGAGGTTCGAGAAGGTTCCGTCAGGTCGGTTGGTCTTGGCCGCGGCGAGGAAGCGCACCTCGGTGCCCTTCTCGCCCGGCGCGTCGCGGACCACGCGCAGATGCTCTACCGTCTCGCCGTTCTCGAACCGGGCGAAATGCTCCTTGCCGTTGCGCCAGATGCGCAGTTCGAGCCAGTCGGACAGGGCGTTCACCACCGAGACGCCCACGCCATGCAGGCCGCCCGAGACATGTAGCTGTTTCTTTTCGATTGTCAGTAAATAT (1228 bp)
RoseinatronobacterthiooxidansDSM 13087T / GATAAGGCGCATCGGTCTGATGACATCTTGTGGTAGCGCAGTTTTTTCAGGTCGAATTCGTCGCGCCCGATGCCCGTGCCAAGCGCGGTGATCAGCGTGCCGATTTCCTGCGACCCCAGCATCCGGTCAAACCGCGCGCGTTCCACATTCAGGATTTTCCCGCGCAGGGGCAGCACGGCTTGGTTCTGGCGCGAACGGCCCTGTTTGGCGGACCCACCAGCCGAGTCCCCCTCGACCAGAAACAGTTCCGACTTCGCAGGGTCGCGTTCCTGACAATCGGCCAGCTTGCCGGGCAAGGATGCCACATCCAGCGCGGTTTTGCGCCGTGTCAGCTCGCGTGCCTTGCGCGCCGCTTCGCGAGCCAGCGCGGCCTCGATGATCTTGCTGACAATGCTTTTGGCATGGACAGGGTTTTCCTCGAACCATTCGGCGAGTTTCTCGTTCACCAGCGATTCCACCGCAGGGCGCACCTCGGACGATACCAGCTTGTCTTTGGTCTGGCTGGAGAATTTCGGGTCCGGCACCTTGACCGACAGCACGCAGGTCAGCCCCTCGCGCGCGTCATCGCCGGTGAAGCTGACCTTCTCTTTTTTGGCAATCCCCGAGGATTGCGCATAGGCATTGATCGAGCGGGTCAGCGCGCCGCGAAAGCCCGCCAGATGCGCGCCACCATCGCGTTGCGGGATGTTGTTGGTGAAGGGCAGCACTGTTTCATGATAGCTGTCATTCCACCACATCGCCACTTCGACGCCGATCTCGTCACGCTCGCCCACGATATAGATGGGTTCGGCCATGACTGGCGTTTTCGAGCGGTCCAGATGGCGCACGAATTCGCGCACGCCCCCCTCATAGAACAATTCCGAGCGCAGCATTTCGGCGGGCCGATGATCTTCCAGAATGATGCGCACACCGGAATTCAGAAAGGCCAGCTCGCGCAGGCGGTTTTCCAGCGTCTTGAAATTGTATTCAAGGTTGGAAAATGTCGTGGTTGAGGCAAGAAAGCGCACTTCAGTGCCGGTTTTGTCGCCCGCATCGCCCACCACTTCGAGAGAGCGGACAGTATCGCCGCGTTCAAACCGCGCGATATGTTCCTTGCCCGCGCGCCAGATGCGCAGTTCCAGCCAATCCGACAGCGCATTGACGACCGAGACACCCACGCCATGCAACCCGCCCGACACTTGTAGCTGTATGTCTGATACACGAAATATCTCTC (1213 bp)
Supplementary TableS6 Primers for randomamplificationpolymorphismDNA
A5’-3’ / B
5’-3’ / C
5’-3’ / D
5’-3’ / E
5’-3’ / F
5’-3’ / G
5’-3’ / H
5’-3’
TTCGAGCCAGGTGAGGCGTCGGGGGTCTTTCCGCATCTAC
GATGACCGCC
GAACGGACTC
GTCCCGACGA
TGGACCGGTG
CTCACCGTCC
TGTCTGGGTG
AAAGCTGCGG
TGTCATCCCC
AAGCCTCGTC
TGCGTGCTTG
GACGGATCAG
CACACTCCAG
TTCCCCCCAG
TGAGTGGGTG
GTTGCCAGCC
ACTTCGCCAC / ACCGCGAAGG
GGACCCAACC
GTCGCCGTCA
TCTGGTGAGG
TGAGCGGACA
ACCTGAACGG
TTGGCACGGG
GTGTGCCCCA
CTCTGGAGAC
GGTCTACACC
AGCGCCATTG
CACCGTATCC
GGGGTGACGA
CTTCCCCAAG
CATCCGTGCT
AGGGCGTAAG
TTTCCCACGG
GAGAGCCAAC
CTGGGGACTT
ACCCGGTCAC / ACCTGGACAC
GGAGGAGAGG
CAGAAGCCCA
CCGCCTAGTC
TGTTCCACGG
AAGGCGGCAG
CAGCGACAAG
TTTGCCCGGT
TGGAGAGCAG
ACAACGCGAG
ACATGCCGTG
AGAGGGCACA
CTGGGGCTGA
TGACGGCGGT
TCATCCGAGG
TCTCCGCCCT
GGTGGTGATG
TGCCCAGCCT
AATGCGGGAG
AAAGTGCGGC / GGGACGATGG
TCTGTCGGTC
GGTCACCTCA
AGTGCGCTGA
CCGCGTCTTG
GAGCGCCTTG
CCCCGATGGT
CTCCAGCGGA
GGCTAACCGA
TGTGCCCGAA
TCTCCGCAAC
AGTAGGGCAC
GGAGTGGACA
GGACGCTTCA
GGGTAACGTG
AGTGCAGCCA
GAAGCCCTTG
AGGCTGGGTG
CCCCCTATCA
TCGCCCAGTC / GGCATGACCT
TGGGCGTCAA
CCAGCAGCTT
GACTGCACAC
ACGCAGGCAC
GAGGGAAGAG
AGGCGGGAAC
AGCAGGTGGA
TGCGAGAGTC
TGGGAGATGG
ACGATGAGCC
GGGCGGTACT
ACCGCCTGCT
GTGACAGGCT
AAGAGAGGGG
AGGTTGCAGG
AGCCTGAGCC
ACCACCCACC
GAGTGGTGAC
TGGTGGACCA / GGCATGACCT
TGGGCGTCAA
CCAGCAGCTT
GACTGCACAC
ACGCAGGCAC
GAGGGAAGAG
AGGCGGGAAC
AGCAGGTGGA
TGCGAGAGTC
TGGGAGATGG
ACGATGAGCC
GGGCGGTACT
ACCGCCTGCT
GTGACAGGCT
AAGAGAGGGG
AGGTTGCAGG
AGCCTGAGCC
ACCACCCACC
GAGTGGTGAC
TGGTGGACCA / TGCGGGTCCT
CACAGCTGCC
ACACAGAGGG
CCCGTAGCAC
GACCTAGTGG
GTCTACGGCA
ACTGGCCTGA
CCCGTTGCCT
TGAGCACGAG
CCATTCCCCA
GTAGCCGTCT
ACAGGTGCGT
GGACGACAAG
CAGGATTCCC
GGACAACGAG
CTCTGCGCGT
CCGTACGTAG
GGCTTTGCCA
CCTCCTCATC
ACGGCAAGGA / CTACGGAGGA
GGCACTGAGG
GAGCCCTCCA
AGCGTGTCTG
CTGAGACGGA
GTGCCTAACC
GAACCTGCGG
TCACGTCCAC
CTGACGTCAC
AGGGCCGTCT
TGCCCGTCGT
CAGCTCACGA
CTCTCCGCCA
GGATGAGACC
ACTGGGACTC
AGCGTCCTCC
ACGACCGACA
GGCTCATGTG
GTCAGGGCAA
TCTCCCTCAG
16S rRNA gene sequences
PlastorhodobacterdaqingensisDQW12E81-30T(KF312713)
AACGAACGCTGGCGGCAGGCCTAACACATGCAAGTCGAGCGAAGTCTTCGGACTTAGCGGCGGACGGGTGAGTAACGCGTGGGAACGTGCCCTTTTCTACGGAATAGCCTCGGGAAACTGAGAGTAATACCGTATACGCCCTTCGGGGGAAAGATTTATCGGAGAAGGATCGGCCCGCGTTGGATTAGGTAGTTGGTGGGGTAATGGCCTACCAAGCCGACGATCCATAGCTGGTTTGAGAGGATGATCAGCCACACTGGGACTGAGACACGGCCCAGACTCCTACGGGAGGCAGCAGTGGGGAATCTTAGACGATGGGCGCAAGCCTGATCCAGCCATGCCGCGTGAGCGATGAAGGCCTTAGGGTTGCAAAGCTCTTTCGCCTGGGAAGATAATGACGGTACCAGGTAAAGAAGCCCCGGCTAACTCCGTGCCAGCAGCCGCGGTAATACGGAGGGGGCTAGCGTTGTTCGGAATTACTGGGCGTAAAGCGCACGTAGGCGGATTGGAAAGTTGGGGGTGAAATCCCGGGGCTCAACCTCGGAACTGCCTCCAAAACTATCAGTCTGGAGTTCGAGAGAGGTGAGTGGAATTCCGAGTGTAGAGGTGAAATTCGTAGATATTCGGAGGAACACCAGTGGCGAAGGCGGCTCACTGGCTCGATACTGACGCTGAGGTGCGAAAGCGTGGGGAGCAAACAGGATTAGATACCCTGGTAGTCCACGCCGTAAACGATGAATGCCAGACGTCGGCAAGCATGCTTGTCGGTGTCACACCTAACGGATTAAGCATTCCGCCTGGGGAGTACGGCCGCAAGGTTAAAACTCAAAGGAATTGACGGGGGCCCGCACAAGCGGTGGAGCATGTGGTTTAATTCGAAGCAACGCGCAGAACCTTACCAACCCTTGACATGTGGATCGCGGCCTCAGAGATGAGGCTTTCAGTTCGGCTGGATCCAACACAGGTGCTGCGTGGCTGTCGTCAGCTCGTGTCGTGAGATGTTCGGTTAAGTCCGGCAACGAGCGCAACCCACGTCCTTAGTTGCCAGCATTCAGTTGGGCACTCTAGGGAAACTGCCGATGATAAGTCGGAGGAAGGTGTGGATGACGTCAAGTCCTCATGGCCCTTACGGGTTGGGCTACACACGTGCTACAATGGCAGTGACAATGGGTTAATCCCAAAAAGCTGTCTCAGTTCGGATTGGGGTCTGCAACTCGACCCCATGAAGTCGGAATCGCTAGTAATCGCGTAACAGCATGACGCGGTGAATACGTTCCCGGGCCTTGTACACACCGCCCGTCACACCATGGGAGTTGGGTTCACCCGAAGGCGGTGCGCCAACCTCGCAAGAGGAGGCAGCCGACCACGGTGAGCTCAGCGACTGGGGTG
PlastorhodobacterdaqingensisDQW12E6-37-1(KF312715)
AACGAACGCTGGCGGCAGGCCTAACACATGCAAGTCGAGCGAAGTCTTCGGACTTAGCGGCGGACGGGTGAGTAACGCGTGGGAACGTGCCCTTTTCTACGGAATAGCCTCGGGAAACTGAGAGTAATACCGTATACGCCCTTCGGGGGAAAGATTTATCGGAGAAGGATCGGCCCGCGTTGGATTAGGTAGTTGGTGGGGTAATGGCCTACCAAGCCGACGATCCATAGCTGGTTTGAGAGGATGATCAGCCACACTGGGACTGAGACACGGCCCAGACTCCTACGGGAGGCAGCAGTGGGGAATCTTAGACAATGGGCGCAAGCCTGATCTAGCCATGCCGCGTGAGCGATGAAGGCCTTAGGGTTGTAAAGCTCTTTCGCCTGGGAAGATAATGACGGTACCAGGTAAAGAAGCCCCGGCTAACTCCGTGCCAGCAGCCGCGGTAATACGGAGGGGGCTAGCGTTGTTCGGAATTACTGGGCGTAAAGCGCACGTAGGCGGATTGGAAAGTTGGGGGTGAAATCCCGGGGCTCAACCTCGGAACTGCCTCCAAAACTATCAGTCTGGAGTTCGAGAGAGGTGAGTGGAATTCCGAGTGTAGAGGTGAAATTCGTAGATATTCGGAGGAACACCAGTGGCGAAGGCGGCTCACTGGCTCGATACTGACGCTGAGGTGCGAAAGCGTGGGGAGCAAACAGGATTAGATACCCTGGTAGTCCACGCCGTAAACGATGAATGCCAGACGTCGGCAAGCATGCTTGTCGGTGTCACACCTAACGGATTAAGCATTCCGCCTGGGGAGTACGGCCGCAAGGTTAAAACTCAAAGGAATTGACGGGGGCCCGCACAAGCGGTGGAGCATGTGGTTTAATTCGAAGCAACGCGCAGAACCTTACCAACCCTTGACATGTGGATCGCGGCCTCAGAGATGAGGCTTTCAGTTCGGCTGGATCCAACACAGGTGCTGCATGGCTGTCGTCAGCTCGTGTCGTGAGATGTTCGGTTAAGTCCGGCAACGAGCGCAACCCACGTCCTTAGTTGCCAGCATTCAGTTGGGCACTCTAGGGAAACTGCCGATGATAAGTCGGAGGAAGGTGTGGATGACGTCAAGTCCTCATGGCCCTTACGGGTTGGGCTACACACGTGCTACAATGGCAGTGACAATGGGTTAATCCCAAAAAGCTGTCTCAGTTCGGATTGGGGTCTGCAACTCGACCCCATGAAGTCGGAATCGCTAGTAATCGCGTAACAGCATGACGCGGTGAATACGTTCCCGGGCCTTGTACACACCGCCCGTCACACCATGGGAGTTGGGTTCACCCGAAGGCGGTGCGCCAACCTCGCAAGAGGAGGCAGCCGACCACGGTGAGCTCAGCGACTGGGGTG