Plant Cell Reports
Supplementary Information
Supplemental Figures 1-5
Guihua Lu • Xiping Wang • Junhua Liu • Kun Yu •Yang Gao • Haiyan Liu • Changgui Wang • Wei Wang •
Guokui Wang • Min Liu • Guanfan Mao • Binfeng Li • Jianying Qin • Mian Xia • Junli Zhou • Jingmei Liu • Shuqin Jiang • Hua Mo • Jinteng Cui • Nobuhiro Nagasawa • Shoba Sivasankar • Marc C. Albertsen • Hajime Sakai • Barbara J. Mazur • Michael W. Lassner • Richard M. Broglie
Application of T-DNA activation tagging to identify glutamate receptor-like genes that enhance drought tolerance in plants
G. Lu (*) • X. Wang • J. Liu • Y. Gao • H. Liu • C. Wang • W. Wang • G. Wang • M. Liu • G. Mao • S. Jiang
Beijing Kaituo DNA Biotech Research Center, Co., Ltd., Beijing 102206, China
E-mail:
H. Mo• N. Nagasawa • M. C. Albertsen • H. Sakai • B. J. Mazur • M. W. Lassner • R. M. Broglie (*)
DuPont Pioneer Agriculture Biotechnology, Johnston, Iowa, IA 50131 or Wilmington, Delaware, DE 19880, USA
E-mail:
K. Yu (e-mail: )
B. Li (e-mail: )
J. Qin (e-mail: )
M. Xia (e-mail: )
J. Zhou (e-mail: )
J. Liu (e-mail: )
J. Cui (e-mail: )
N. Nagasawa (emmmail: )
S. Sivasankar (e-mail: )
Plant Cell Reports
a
1 AGATCTATATTTGTTTACACGGTCTTCAATGATATGCTTTGACCAATAATTTATTTCATG
61 TTATGTTCCTAACGAATATAAAATTAGTATCACATGAAAATACTTTAAAATATAAATTAA
121 GTGATATACTTCCTCCGTTTTACAATGTAAGTCATTTTAGCAACTTCTAACTGAAACTTG
181 AAAACCTTGGTAGACGGCATGTAACCAGCTTTATGCCGTCGACAACCATGGTCTAGACAG
241 GATCCCC
b
1 CCGCGCCGATGGTGCCGTTGAGCAGCGCCTCGTGGAAGCTCTGCGCCGCCCCGTACGGCA
61 CCAGCCTCGCCGGCGGGAACCCGGACCTGGTCATGGCCCCCCGCATGAAGGAGTTGTTCA
121 TGATCCCCACGCGCTCCGCGCCGCGCCACAGCGCCGCGTAGCCGGCGATGGACGGCTCGA
181 GGCGCGGCACGGTGAGCATGGAGGTGAGGCTGGCGGTGTAGCTGGACCGGAGGATGAGGA
241 CGACGAAGAACCAGACGACGGCGGCGAGGCGGGCGAGGTTGCTGCGGAGGTCCTCGCGGT
301 GGGCGAAGACGAGGGTGGAGAAGCCGAAGTAGAGGAGGGTGCCGAGCTGGTGCCACGGCG
361 GGCCGCGGAACTCGGCGTTGCCGCGGTGCTCGACGAACCAGACGGCGAAGCCGGTGAGGA
421 GGAGGAAGGCAGCGCTGGCGAGCGACAGGTCGTAGCGGAGCGGCTTCAGGAACACCCACG
481 TCCGCTCCCCGCCGCGGCCGACGTCCCGCAGCGGCGCCACCATGGCGATGCCCGACGCCA
541 TGAACGGCAGGGTGAAGTCCACGTAGCTCGACCGCGCCGCCGTGATCGTCATGTCCGCCA
601 CCGCCGCGTCGAATGCCTGCACACAAATTTAATTTAAACGCCATGGAAAGGAATCCCCCG
661 TAGCTGCCGGTGCCGTGAGAGGAGGAGGAGGCCGCCTGCCGTGCCGGCTCACGTCTGCCG
721 CTCCGCCACGCAATTTCTGGATGCCGACAGCGGAGCAAGTCCAACGGTGGAGCGGAACTC
781 TCGAGAGGGGTCCAGA
Supplemental Fig. 1 Nucleotide sequences (from 5’ to 3’ end) of the T-DNA right border (a) and
left border (b)-flanks in AH01486 genome. T-DNA sequences were underlined
Plant Cell Reports
a
1 ATGGCTGGTCACACCCCGAATCCTCTCTTCCTCCTCCTCTTCCTCGGATACCTCCTCTTC
61 GCGGCGGCGCAGCCGCCGCTGACGGTCACCGTCGGCCTCATCATCGACGGCGGCTCGCCG
121 GTCGGCAAGATCGCCAACACCACCATCCCCATGGCGCTCGACGACTTCTACGCCGCCTTC
181 CCGCGGTCCCCCGCCCGCGTCCGCCTCCTGCACCGCGACTCCCGCGGCGACGTCGTCGCC
241 GCCGCCTCCGCCGCGCTGGAGCTGATGGAGGGGCGGGGCGTGCGCGCCATCCTTGGGCCT
301 CAGTCCTCCGTGGAGTCGGCGTTCGTCGCCGACCTCGCCACGCGGGCGGAGGTCCCCGTC
361 GTGTCGTTCTCGGCGACCAGCCCGTCGGTGTCGCCCGGCGGAGGGAGGTTCTTCGCGCGC
421 GCCGCGCTGAGCGACGCGGCGCAGGCGGGCGCCATCGCCGCGCTCGCGAGGCTCTTCGGG
481 TGGCGCCGCGTCGTGCCGGTCTACCAGGACGACGACTACGGCGCCGCCTTCGTGCCGTTC
541 CTCGTCGACGCGCTCACCGCCGAGGGCTCCGAGGTCCCCTACCGCTGCGCGCTCCCGGCG
601 GGGGCCGACGCCGACGCCGTCGCCGCCGCGATGTACCGGATGGAGTCGCTGCAGACGCGC
661 GCCTTCGTGCTGCACGCGCGCCCGGACCTCGCCGGGCGCGTGCTCGCCGCCGCCGAGGCC
721 GCCGGGATGATGGGCGAGGGCTTCGCGTGGGTCATCACCGACGGGCTCACGGGCCTCCTC
781 GGCTCCATCAACGCGCCGCAGGGGGTGATCGGCCTCGCCCCCTACGTGCCGACGACGCCG
841 CGGCTGCGCGACGTCAGGCGGCGGTGGGTGCGCCGCTTCATGGCCGAGCACCCGGCCGCC
901 GACGCGGAGCACGCCGAGATGGGCAGCTACGCCGTGTGGGCCTACGACGCCGCGTGGGCC
961 GTCGCGTCCGCCGCCGAACACCTCACCGCCGGCGACCTATCACCGCCGCAGGGTGGGCTC
1021 GTGGGGGGCAAGGGCGGACCCACCGACTTCGCCGGGCTCGGCAAGTCAAGGTCCGGCAAG
1081 AAGTTCCTCGAGGCGATCACCAGCACGACGTTCGACGGCCTCGGCGGCAGGTTCCAGCTC
1141 GTCGACGGCGAGCTCGCGGTGCACGCCTTCCGCGTGCTGAACATCATGGACAGAGGGAAG
1201 GAGAGGAGCATCGGGTTCTGGACCAAGGACGGCGGGCTGACCCGGCACCTCGGCGTTGGC
1261 GGCGGTGGCGGGGGCGAGCTCGCGCCGGTGATCTGGCCGGGGGAGTCGACGGTGGTGCCG
1321 AGGGGGTGGGTGGTGCCGACGAGCGCGCGGAGGCTGCGGGTGGCGGTGCCCGGCAGCGTC
1381 AACCCCGGGTACCGGGCGATCGTGCACCTGGACGTGGACGCGGCGACGAACCGGACGACC
1441 GCCGGCGGGTTCGTCGTCGAGGTGTTCGAGGCGGCGGTGCGGCTGCTGCCGTACGCGCTG
1501 CCGGTGGAGTACGTGAAGGCGGAGTCGATGCCCTACGACAAGCTGGTGCAGATGGTTGCT
1561 GATGGGGCATTCGACGCGGCGGTGGCGGACATGACGATCACGGCGGCGCGGTCGAGCTAC
1621 GTGGACTTCACCCTGCCGTTCATGGCGTCGGGCATCGCCATGGTGGCGCCGCTGCGGGAC
1681 GTCGGCCGCGGCGGGGAGCGGACGTGGGTGTTCCTGAAGCCGCTCCGCTACGACCTGTGG
1741 CTCGCCAGCGCTGCCTTCCTCCTCCTCACCGGCTTCGCCGTCTGGTTCGTCGAGCACCGC
1801 GGCAACGCCGAGTTCCGCGGCCCGCCGTGGCACCAGCTCGGCACCCTCCTCTACTTCGGC
1861 TTCTCCACCCTCGTCTTCGCCCACCGCGAGGACCTCCGCAGCAACCTCGCCCGCCTCGCC
1921 GCCGTCGTCTGGTTCTTCGTCGTCCTCATCCTCCAGTCCAGCTACACCGCCAGCCTCACC
1981 TCCATGCTCACCGTGCCGCGCCTCGAGCCGTCCATCGCCGGCTACGCGGCGCTGTGGCGC
2041 GGCGCGGAGCGCGTGGGGATCATGAACAACTCCTTCATGCGGGGGGCCATGACCAGGTCC
2101 GGGTTCCCGCCGGCGAGGCTGGTGCCGTACGGGGCGGCGCAGAGCTTCCACGAGGCGCTG
2161 CTCAACGGCACCATCGGCGCGGTGGTGGACGAGACGCCGTACCTGAGGATCTTCCTCAAG
2221 TCCTACTGCGACAGGTTCGCCATGGCCGGCGGCGGCGGCGGGGGGCAGCCCAACAAGACC
2281 GGCGGCTTCGGCTTCGCCTTCCCCAAGGGCTCGCCGTACGTCGCCGACCTGTCCCGCGCC
2341 ATCCTGGCGCTGACGGAGAGCGAGGAGATGAACCTCATCGAGCGCAAGTGGTTCGGCGAG
2401 TCCGACGGCTGCGCGGCGGCGCAGGCGGCCGGCGGGCCGTTCACGTCGGACAGCCTCAGC
2461 TTCGGCAGCTTCTGGGGCCTCTTCCTCATCACCGGCGCCACCTCGCTCCTCTGCTGCGCC
2521 GTCCACCTCGCCACCTTCGTCGCCTCCAACCGGGGTGCCATCCGCGACATCGTCGCGACG
2581 TCGACGCACCCGTTCCGGAGGCTCGCCGAGCTCTACGACGGCAGGGACCTCTCGGCGCAC
2641 ACGTTCAAGGCCAAGGACGGCGGCGCCGCCGCCTCGCCGCCCGTCGTGCACGACGCGGCC
2701 GGCAGCCCGATCAGCCTGCACATGGGCGCCTGGTCGCCGCAGCCGTCGAGCACCATGGCC
2761 GGCGGCGAGATCGAGCCGGCCGGTGGCGAAGCCAACGAGGAGGAGGCGACGACGACGACT
2821 GCAGCTCGCGATCCCGACGGCGCTGGAGAGAATGGCAGAGGCCAGTAA
b
1 MAGHTPNPLFLLLFLGYLLFAAAQPPLTVTVGLIIDGGSPVGKIANTTIPMALDDFYAAF
61 PRSPARVRLLHRDSRGDVVAAASAALELMEGRGVRAILGPQSSVESAFVADLATRAEVPV
121 VSFSATSPSVSPGGGRFFARAALSDAAQAGAIAALARLFGWRRVVPVYQDDDYGAAFVPF
181 LVDALTAEGSEVPYRCALPAGADADAVAAAMYRMESLQTRAFVLHARPDLAGRVLAAAEA
241 AGMMGEGFAWVITDGLTGLLGSINAPQGVIGLAPYVPTTPRLRDVRRRWVRRFMAEHPAA
301 DAEHAEMGSYAVWAYDAAWAVASAAEHLTAGDLSPPQGGLVGGKGGPTDFAGLGKSRSGK
361 KFLEAITSTTFDGLGGRFQLVDGELAVHAFRVLNIMDRGKERSIGFWTKDGGLTRHLGVG
421 GGGGGELAPVIWPGESTVVPRGWVVPTSARRLRVAVPGSVNPGYRAIVHLDVDAATNRTT
481 AGGFVVEVFEAAVRLLPYALPVEYVKAESMPYDKLVQMVADGAFDAAVADMTITAARSSY
541 VDFTLPFMASGIAMVAPLRDVGRGGERTWVFLKPLRYDLWLASAAFLLLTGFAVWFVEHR
601 GNAEFRGPPWHQLGTLLYFGFSTLVFAHREDLRSNLARLAAVVWFFVVLILQSSYTASLT
661 SMLTVPRLEPSIAGYAALWRGAERVGIMNNSFMRGAMTRSGFPPARLVPYGAAQSFHEAL
721 LNGTIGAVVDETPYLRIFLKSYCDRFAMAGGGGGGQPNKTGGFGFAFPKGSPYVADLSRA
781 ILALTESEEMNLIERKWFGESDGCAAAQAAGGPFTSDSLSFGSFWGLFLITGATSLLCCA
841 VHLATFVASNRGAIRDIVATSTHPFRRLAELYDGRDLSAHTFKAKDGGAAASPPVVHDAA
901 GSPISLHMGAWSPQPSSTMAGGEIEPAGGEANEEEATTTTAARDPDGAGENGRGQ
Supplemental Fig. 2 Nucleotide sequences of OsGLR1 open reading frame (a, from 5’ to 3’ end) and its corresponding amino acid sequences (b, from N-terminus to C-terminus)
Plant Cell Reports
a
1 ATGGAAGCTGGAGCAAGATTAGCCTTCGTAATGCCGCTCGTCGTCGTCCTCTTGCTGATG
61 ATCTTCTCGTTGGGCGTTCGGGGAGTGGATGTGGTCGTCGATGGAGGAGGAGGAGGTGCG
121 GCGGCTGCTCGGCGGAGGAGGGTGGAGGTGGGGGTGATCCTGGACAGGAGGACGTGGCTG
181 GGGAACATCAGCTGGGCGTGCATGGAGCTCGCCGTGGAGGATTTCTACGCCGACGAGGAG
241 CGCGCCAGCTACACCACCGCGCTCAGGCTCCACCTCCGGGACACCCGCCTCGACGCCGTC
301 GACGCCGCCTCCGCAGGTGTCGATCTACTGAAAAATGTCCATGTGCAAGCAATCGTTGGG
361 CCACAGACATCAGCACAGGCCAAATTTCTCGCGGAGCTTGGGGAAAAATCATCGGTTCCT
421 GTTGTTTCATTCTCTGCAAATAGCCCATGTCGAACGGCCAGCCAAACTCCATACTTCATC
481 AGGACGGCATGGAACGACTCCTCACAAGCAGAAGCTATCGCGTCACTTGTTCAAAGATTC
541 AATTGGAGGGACGTCATCCCTGTCATCGAAGATGATGACTCCAATACAAGATTCATTCCT
601 GACCTTGTTGATGCCCTAAGGAATGCCGAGATCCGTGTTACCCACAGGTGCAAGATACAC
661 CCGTCAGCTGGAGCTGATGACATAAAGAAAGTCGTCTTAAGCTTAAAGGAAAAATGGACA
721 AGCGTATTTGTCGTGCGCATGTCGTATCAGCTAGCTCTTAGTTTTTTCAAGCATGCCAAG
781 GATGAAGGGATGATGGGCCAGGGCTTTGTCTGGATTGCAGCTTATGGCTTAACAGACATC
841 TTTGATGTAGTTGGTTCTCCTGCATTTGATGTGATGCAAGGAGTTATTGGGATGAAACCT
901 TATGTTAATGATACTAAACAACTTCAAAACTTCAGGCAGAGATGGCGCAAGATGTATAAG
961 TCTGAAAATCCAGGCACCACATTGAGTGAGCCCACATTATCTGGTCTCTACGCATATGAC
1021 ACTGTGTGGGCATTAGCGTTAGCAGCAGAGAAGGCTGGATATGTTAACTCAGACTTTCTT
1081 CTGTCTGAAAAAAACAACGGGTCGACTGATTTTGACAGGATCAATACTTCAAATGCTGCT
1141 AAGAAGCTCCAGAGCACACTCTTGAATATTGATTTCCAAGGCATGAGTGGGAAATTTCAG
1201 TTTCAAGACATGCATTTGCTATCGATGACTTATGAGATAATAAATATAGTTGGGGAGGAG
1261 CAAAGAGTAGTTGGTTTTTGGACACCAGAATTTAACATTTCCAGGGGTCTAAATACGAAA
1321 GCTGATGTTAATGAAATCATATGGCCAGGAGGAGAAACAACTGTACCAAGGGGGTGGCTC
1381 TTTCCAATGAATAAAACACTCAAAATAGGCGTGCCTGCAAAACCTGGGTTTTCTGGTTTT
1441 ATAAAGAAAGAAAAATATAATTTCACAGGACTCTGCATTGAGGTATTCGAGGAAGTTCTT
1501 AATGGATTACCCTACAAAATACCCCATGACTATGTGGAGTTTGGAAATGGAAAGGGGGAA
1561 AGTAATGGAACTTACGATGAACTTATCTACAAAGTTTATCAGAACGACTTCGATGCAGCA
1621 GTTGGTGATATAACAATCTTGGCCAACCGATCTTTATATGTGGACTTCACTCTTCCTTAT
1681 ACTGAGTCAGGAGTGCGCATGCTAGTTCCAGTCCAGGACCAGCGACAGAAGACTGCATGG
1741 ACGTTTCTGCAGCCATTAACAGCTGACTTATGGTTAGGAACTGCGGCCTTCTTTGTCTTA
1801 ACAGGTTTTGTAGTTTGGTTTATTGAGCACAGAACAAATGAAGATTTCAGAGGACCACCA
1861 GTCAATCAAATTGGATCTGTCTTCTACTTCGCCTTCTCCACACTTGTTTTTGCTCATCGG
1921 CAAAAGATTGTGAACAATTTATCAAGAGTTTTGTTAGTTATTTGGCTTTTCGTGGTGCTG
1981 ATATTGCAGCGGAGTTATACTGCAAGCTTGAGCTCAATTCTCACAGTGGAACAACTTCAG
2041 CCAACAGTCACCAATTTAGACGAAGTCATCAGGAAAGGGGCCAACGTTGGCTACCTCAAT
2101 GATTCTTTCATGCCTGAGCTTTTGAAAAGGTTGAAAATTGACGAATCAAAGTTGATTGCC
2161 CTTGACTCTCCTGATGAATACAACGAGGCTCTATCAACTGGTAGAGTTGCTGTAGTTGTC
2221 GATGAGATACCATACCTTAAGGTGTTTCTTTCAAAGTATTGCCACAACTATACTATGGTT
2281 GGCCCAACTTACAAGTTCGATGGATTTGGTTTTGCATTCCCTCTAGGCTCCCCGCTCACT
2341 GCTGAGATTTCAAGGGGAATATTGAACTTCACATCAAGCAACAGAATGGCCCAACTGGAG
2401 AGAGAATTGTACAACAATAGAACATGCCCTGACAAAGATGACTCCCAAACTTCAAGCAGC
2461 CTTACACTACGCAGCTTTCTTGGGCTGTTCATCATCACTGGAGCATCTTCACTGCTGGCA
2521 CTGTTCCTACATGTTGTCATAACCCTCTATAATCATCGGCATGATTTGAGCAGCGCCAGC
2581 AGTAGTCAGAGTTCATGGTGTGGATGGTTTGCCATCCTCCTAAAGATATTCCACGAGGGT
2641 GATAGACCTAATGCTCCACAATTGGATGAGCCAGCAGTGTCAAATGCTAACACTACAGCT
2701 GATACTCCATGGAGCACACCTGATCATCACATTATCGAAAATGTTGATTCAGGCAGTGAT
2761 GTGGAGAGCGTAAGAGAAGAAGATAGAGAAGATTTTGTTCAGGGCCCTGACCCACCATCT
2821 TTTGCATACATGCATTCAGAGAGGGGGCAATAA
b
1 MEAGARLAFVMPLVVVLLLMIFSLGVRGVDVVVDGGGGGAAAARRRRVEVGVILDRRTWL
61 GNISWACMELAVEDFYADEERASYTTALRLHLRDTRLDAVDAASAGVDLLKNVHVQAIVG
121 PQTSAQAKFLAELGEKSSVPVVSFSANSPCRTASQTPYFIRTAWNDSSQAEAIASLVQRF
181 NWRDVIPVIEDDDSNTRFIPDLVDALRNAEIRVTHRCKIHPSAGADDIKKVVLSLKEKWT
241 SVFVVRMSYQLALSFFKHAKDEGMMGQGFVWIAAYGLTDIFDVVGSPAFDVMQGVIGMKP
301 YVNDTKQLQNFRQRWRKMYKSENPGTTLSEPTLSGLYAYDTVWALALAAEKAGYVNSDFL
361 LSEKNNGSTDFDRINTSNAAKKLQSTLLNIDFQGMSGKFQFQDMHLLSMTYEIINIVGEE
421 QRVVGFWTPEFNISRGLNTKADVNEIIWPGGETTVPRGWLFPMNKTLKIGVPAKPGFSGF
481 IKKEKYNFTGLCIEVFEEVLNGLPYKIPHDYVEFGNGKGESNGTYDELIYKVYQNDFDAA
541 VGDITILANRSLYVDFTLPYTESGVRMLVPVQDQRQKTAWTFLQPLTADLWLGTAAFFVL
601 TGFVVWFIEHRTNEDFRGPPVNQIGSVFYFAFSTLVFAHRQKIVNNLSRVLLVIWLFVVL
661 ILQRSYTASLSSILTVEQLQPTVTNLDEVIRKGANVGYLNDSFMPELLKRLKIDESKLIA
721 LDSPDEYNEALSTGRVAVVVDEIPYLKVFLSKYCHNYTMVGPTYKFDGFGFAFPLGSPLT
781 AEISRGILNFTSSNRMAQLERELYNNRTCPDKDDSQTSSSLTLRSFLGLFIITGASSLLA
841 LFLHVVITLYNHRHDLSSASSSQSSWCGWFAILLKIFHEGDRPNAPQLDEPAVSNANTTA
901 DTPWSTPDHHIIENVDSGSDVESVREEDREDFVQGPDPPSFAYMHSERGQ
Supplemental Fig. 3 Nucleotide sequences of OsGLR2 open reading frame (a, from 5’ to 3’ end) and its corresponding amino acid sequences (b, from N-terminus to C-terminus)
Plant Cell Reports
a
1 ATGGCTGGTCACACCCCGAATCCTCTCTTCCTCCTCCTCTTCCTCGGATACCTCCTCTTC
61 GCGGCGGCGCAGCCGCCGCTGACGGTCACCGTCGGCCTCATCATCGACGGCGGCTCGCCG
121 GTCGGCAAGATCGCCAACACCACCATCCCCATGGCGCTCGACGACTTCTACGCCGCCTTC
181 CCGCGGTCCCCCGCCCGCGTCCGCCTCCTGCACCGCGACTCCCGCGGCGACGTCGTCGCC
241 GCCGCCTCCGCCGGTACGGACACGCTCGTTTCGTCTCGTTTCGTAGCTTGAGCTTGTGAT
301 GATGAATTAATGGACGTCGATCGTCGCGTGCTGCAGCGCTGGAGCTGATGGAGGGGCGGG
361 GCGTGCGCGCCATCCTTGGGCCTCAGTCCTCCGTGGAGTCGGCGTTCGTCGCCGACCTCG
421 CCACGCGGGCGGAGGTCCCCGTCGTGTCGTTCTCGGCGACCAGCCCGTCGGTGTCGCCCG
481 GCGGAGGGAGGTTCTTCGCGCGCGCCGCGCTGAGCGACGCGGCGCAGGCGGGCGCCATCG
541 CCGCGCTCGCGAGGCTCTTCGGGTGGCGCCGCGTCGTGCCGGTCTACCAGGACGACGACT
601 ACGGCGCCGCCTTCGTGCCGTTCCTCGTCGACGCGCTCACCGCCGAGGGCTCCGAGGTCC
661 CCTACCGCTGCGCGCTCCCGGCGGGGGCCGACGCCGACGCCGTCGCCGCCGCGATGTACC
721 GGATGGAGTCGCTGCAGACGCGCGCCTTCGTGCTGCACGCGCGCCCGGACCTCGCCGGGC
781 GCGTGCTCGCCGCCGCCGAGGCCGCCGGGATGATGGGCGAGGGCTTCGCGTGGGTCATCA
841 CCGACGGGCTCACGGGCCTCCTCGGCTCCATCAACGCGCCGCAGGGGGTGATCGGCCTCG
901 CCCCCTACGTGCCGACGACGCCGCGGCTGCGCGACGTCAGGCGGCGGTGGGTGCGCCGCT
961 TCATGGCCGAGCACCCGGCCGCCGACGCGGAGCACGCCGAGATGGGCAGCTACGCCGTGT
1021 GGGCCTACGACGCCGCGTGGGCCGTCGCGTCCGCCGCCGAACACCTCACCGCCGGCGACC
1081 TATCACCGCCGCAGGGTGGGCTCGTGGGGGGCAAGGGCGGACCCACCGACTTCGCCGGGC
1141 TCGGCAAGTCAAGGTCCGGCAAGAAGTTCCTCGAGGCGATCACCAGCACGACGTTCGACG
1201 GCCTCGGCGGCAGGTTCCAGCTCGTCGACGGCGAGCTCGCGGTGCACGCCTTCCGCGTGC
1261 TGAACATCATGGACAGAGGGAAGGAGAGGAGCATCGGGTTCTGGACCAAGGACGGCGGGC
1321 TGACCCGGCACCTCGGCGTTGGCGGCGGTGGCGGGGGCGAGCTCGCGCCGGTGATCTGGC
1381 CGGGGGAGTCGACGGTGGTGCCGAGGGGGTGGGTGGTGCCGACGAGCGCGCGGAGGCTGC
1441 GGGTGGCGGTGCCCGGCAGCGTCAACCCCGGGTACCGGGCGATCGTGCACCTGGACGTGG
1501 ACGCGGCGACGAACCGGACGACCGCCGGCGGGTTCGTCGTCGAGGTGTTCGAGGCGGCGG
1561 TGCGGCTGCTGCCGTACGCGCTGCCGGTGGAGTACGTGAAGGCGGAGTCGATGCCCTACG
1621 ACAAGCTGGTGCAGATGGTTGCTGATGGGGTAAGTGCTTGTGCTTCTAGTACATCAAATA
1681 TACTCCCTCCATCTCAAAATGTTTAA
b
1 MAGHTPNPLFLLLFLGYLLFAAAQPPLTVTVGLIIDGGSPVGKIANTTIPMALDDFYAAF
61 PRSPARVRLLHRDSRGDVVAAASAALELMEGRGVRAILGPQSSVESAFVADLATRAEVPV
121 VSFSATSPSVSPGGGRFFARAALSDAAQAGAIAALARLFGWRRVVPVYQDDDYGAAFVPF
181 LVDALTAEGSEVPYRCALPAGADADAVAAAMYRMESLQTRAFVLHARPDLAGRVLAAAEA
241 AGMMGEGFAWVITDGLTGLLGSINAPQGVIGLAPYVPTTPRLRDVRRRWVRRFMAEHPAA
301 DAEHAEMGSYAVWAYDAAWAVASAAEHLTAGDLSPPQGGLVGGKGGPTDFAGLGKSRSGK
361 KFLEAITSTTFDGLGGRFQLVDGELAVHAFRVLNIMDRGKERSIGFWTKDGGLTRHLGVG
421 GGGGGELAPVIWPGESTVVPRGWVVPTSARRLRVAVPGSVNPGYRAIVHLDVDAATNRTT
481 AGGFVVEVFEAAVRLLPYALPVEYVKAESMPYDKLVQMVADGVSACASSTSNILPPSQNV
Supplemental Fig. 4 Nucleotide sequences of OsGLR1 5’-part’s open reading frame (a, from 5’ to 3’ end) and its corresponding amino acid sequences (b, from N-terminus to C-terminus) in AH01486 genome. The shaded amino acid residues are from the second intron of OsGLR1 gene
Plant Cell Reports
a b
Supplemental Fig. 5 Schematic maps of empty vector DP0005 (a) and DP0009 (b). CaMV 35S, Cauliflower mosaic virus 35S promoter. The greenhouse drought tolerance assays showed that there was no statistical differences among tissue-cultured Zhonghua 11control, DP0005-transgenic events, and DP0009-transgenic events (data not shown)