Heat treatment was applied by putting the plants in 4?or 37 with

Heat treatment was applied by putting the plants in 4?or 37 with light. ABA was applied through GSK962040 spraying plants with 50 M (?-ABA (Invitrogen, USA) and oxidative stress was performed by spraying with 10 M Paraquat (Methyl viologen, Sigma). Drought was subjected on 14 d old plants by withholding water until light or severe wilting occurred. For low potassium (LK) treatment, a hydroponic system using a plastic box and plastic foam was used (Additional file 14) and the hydroponic medium (1/4 x MS, pH5.7, Caisson Laboratories, USA) was changed every 5 d. LK medium was made by modifying the 1/2 x MS medium, such that the final concentration of K+ was 20 M with most of KNO3 replaced with NH4NO3 and all the chemicals for LK solution were purchased from Alfa Aesar (France). The control plants were allowed to continue to grow in fresh-Zhang et al. BMC Plant Biology 2014, 14:8 http://www.biomedcentral.com/1471-2229/14/Page 22 ofmade 1/2 x MS medium. Above-ground tissues, except roots for LK treatment, were harvested at 6 and 24 hours time points after treatments and flash-frozen in liquid nitrogen and stored at -80 . The planting, treatments and harvesting were repeated three times independently. Quantitative reverse transcriptase PCR (qRT-PCR) was performed as described earlier with modification [62,68,69]. Total RNA samples were isolated from treated and nontreated control canola tissues using the Plant RNA kit (Omega, USA). RNA was quantified by NanoDrop1000 (NanoDrop Technologies, Inc.) with integrity checked on 1 agarose gel. RNA was transcribed into cDNA by using RevertAid H minus reverse transcriptase (Fermentas) and Oligo(dT)18 primer (Fermentas). Primers used for qRTPCR were designed using PrimerSelect program in DNASTAR (DNASTAR Inc.) a0023781 targeting 3UTR of each genes with amplicon size between 80 and 250 bp (Additional file 13). The reference genes used were BnaUBC9 and BnaUP1 [70]. qRT-PCR dar.12324 was performed using 10-fold diluted cDNA and SYBR Premix Ex TaqTM kit (TaKaRa, Daling, China) on a CFX96 real-time PCR machine (Bio-Rad, USA). The specificity of each pair of primers was checked through regular PCR followed by 1.5 agarose gel electrophoresis, and also by primer test in CFX96 qPCR machine (Bio-Rad, USA) followed by melting curve GSK-J4 web examination. The amplification efficiency (E) of each primer pair was calculated following that described previously [62,68,71]. Three independent biological replicates were run and the significance was determined with SPSS (p < 0.05).Arabidopsis transformation and phenotypic assaywith 0.8 Phytoblend, and stratified in 4 for 3 d before transferred to a growth chamber with a photoperiod of 16 h light/8 h dark at the temperature 22?3 . After vertically growing for 4 d, seedlings were transferred onto ?x MS medium supplemented with or without 50 or 100 mM NaCl and continued to grow vertically for another 7 d, before the root elongation was measured and plates photographed.Accession numbersThe cDNA sequences of canola CBL and CIPK genes cloned in this study were deposited in GenBank under the accession No. JQ708046- JQ708066 and KC414027- KC414028.Additional filesAdditional file 1: BnaCBL and BnaCIPK EST summary. Additional file 2: Amino acid residue identity and similarity of BnaCBL and BnaCIPK proteins compared with each other and with those from Arabidopsis and rice. Additional file 3: Analysis of EF-hand motifs in calcium binding proteins of representative species. Additional file 4: Multiple alignment of cano.Heat treatment was applied by putting the plants in 4?or 37 with light. ABA was applied through spraying plants with 50 M (?-ABA (Invitrogen, USA) and oxidative stress was performed by spraying with 10 M Paraquat (Methyl viologen, Sigma). Drought was subjected on 14 d old plants by withholding water until light or severe wilting occurred. For low potassium (LK) treatment, a hydroponic system using a plastic box and plastic foam was used (Additional file 14) and the hydroponic medium (1/4 x MS, pH5.7, Caisson Laboratories, USA) was changed every 5 d. LK medium was made by modifying the 1/2 x MS medium, such that the final concentration of K+ was 20 M with most of KNO3 replaced with NH4NO3 and all the chemicals for LK solution were purchased from Alfa Aesar (France). The control plants were allowed to continue to grow in fresh-Zhang et al. BMC Plant Biology 2014, 14:8 http://www.biomedcentral.com/1471-2229/14/Page 22 ofmade 1/2 x MS medium. Above-ground tissues, except roots for LK treatment, were harvested at 6 and 24 hours time points after treatments and flash-frozen in liquid nitrogen and stored at -80 . The planting, treatments and harvesting were repeated three times independently. Quantitative reverse transcriptase PCR (qRT-PCR) was performed as described earlier with modification [62,68,69]. Total RNA samples were isolated from treated and nontreated control canola tissues using the Plant RNA kit (Omega, USA). RNA was quantified by NanoDrop1000 (NanoDrop Technologies, Inc.) with integrity checked on 1 agarose gel. RNA was transcribed into cDNA by using RevertAid H minus reverse transcriptase (Fermentas) and Oligo(dT)18 primer (Fermentas). Primers used for qRTPCR were designed using PrimerSelect program in DNASTAR (DNASTAR Inc.) a0023781 targeting 3UTR of each genes with amplicon size between 80 and 250 bp (Additional file 13). The reference genes used were BnaUBC9 and BnaUP1 [70]. qRT-PCR dar.12324 was performed using 10-fold diluted cDNA and SYBR Premix Ex TaqTM kit (TaKaRa, Daling, China) on a CFX96 real-time PCR machine (Bio-Rad, USA). The specificity of each pair of primers was checked through regular PCR followed by 1.5 agarose gel electrophoresis, and also by primer test in CFX96 qPCR machine (Bio-Rad, USA) followed by melting curve examination. The amplification efficiency (E) of each primer pair was calculated following that described previously [62,68,71]. Three independent biological replicates were run and the significance was determined with SPSS (p < 0.05).Arabidopsis transformation and phenotypic assaywith 0.8 Phytoblend, and stratified in 4 for 3 d before transferred to a growth chamber with a photoperiod of 16 h light/8 h dark at the temperature 22?3 . After vertically growing for 4 d, seedlings were transferred onto ?x MS medium supplemented with or without 50 or 100 mM NaCl and continued to grow vertically for another 7 d, before the root elongation was measured and plates photographed.Accession numbersThe cDNA sequences of canola CBL and CIPK genes cloned in this study were deposited in GenBank under the accession No. JQ708046- JQ708066 and KC414027- KC414028.Additional filesAdditional file 1: BnaCBL and BnaCIPK EST summary. Additional file 2: Amino acid residue identity and similarity of BnaCBL and BnaCIPK proteins compared with each other and with those from Arabidopsis and rice. Additional file 3: Analysis of EF-hand motifs in calcium binding proteins of representative species. Additional file 4: Multiple alignment of cano.