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Research Article

Overexpression of S-Adenosylmethionine Synthetase Gene from Pyropia tenera Enhances Tolerance to Abiotic Stress

Plant Breeding and Biotechnology 2017;5(4):304-313.
Published online: December 1, 2017

Department of Genetic Resources Research, National Marine Biodiversity Institute of Korea, Seocheon 33662, Korea

*Corresponding author: Jong Won Han, jwhan@mabik.re.kr, Tel: +82-41-950-0760, Fax: +82-41-950-0765
• Received: November 1, 2017   • Revised: November 9, 2017   • Accepted: November 10, 2017

Copyright © 2017 The Korean Society of Breeding Science

This is an Open-Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/4.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

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Overexpression of S-Adenosylmethionine Synthetase Gene from Pyropia tenera Enhances Tolerance to Abiotic Stress
Plant Breed. Biotech.. 2017;5(4):304-313.   Published online December 1, 2017
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Overexpression of S-Adenosylmethionine Synthetase Gene from Pyropia tenera Enhances Tolerance to Abiotic Stress
Plant Breed. Biotech.. 2017;5(4):304-313.   Published online December 1, 2017
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Overexpression of S-Adenosylmethionine Synthetase Gene from Pyropia tenera Enhances Tolerance to Abiotic Stress
Image Image Image Image Image Image
Fig. 1 Amino acid sequence alignment of PtSAMS homologs and phylogenetic tree of SAMS from various species. (a) Comparison of amino acid sequences of Pyropia tenera SAMS with the SAMS of other species: Galdieria sulphuraria (XP_005703068.1), Ectocarpus siliculosus (CBJ30117.1), Chlamydomonas reinhardtii (XP_001696661.1), and Arabidopsis thaliana (NP_171751.1); identical residues are shaded black, and similar residues are shaded gray. The domains are indicated by underlining. Met-binding motifs are indicated by boxes. Dotted boxes indicate ATP-binding sites. (b) Phylogenetic tree analysis using Geneious software using Jukes Cantor, Neighbor Joining tree building method with a 10,000 bootstrap repeat value.
Fig. 2 Southern blot analysis of P. tenera genomic DNA: 5 μg of genomic DNA per lane was digested with restriction enzymes and separated by electrophoresis in a 0.7% agarose gel. The DNA was transferred to a nylon membrane and probed with a DIG-labeled PtSAMS cDNA fragment. Molecular size markers are indicated on the left.
Fig. 3 Expression pattern analysis of PtSAMS at different life cycle stages in P. tenera: Total RNA was isolated from conchocelis and thallus of P. tenera at various life stages. The mRNA expression level of the conchocelis stage was set to 1. PtGAPDH was used as normalization control. The results are presented as average values with SD using each three times.
Fig. 4 SDS-PAGE and western blot analysis of PtSAMS recombinant protein in E. coli BL21(DE3). (a) SDS-PAGE analysis. M: marker, Lane 1: uninduced protein, Lane 2–4: induced protein by 0.1 mM IPTG for 1, 3, 5 (hour), respectively. (b) Analysis of expression of recombinant PtSAMS protein in E. coli BL21(DE3) cells; western blotting analysis of the PtSAMS recombinant proteins with anti-His tag antibodies. Arrows indicate the His-tagged PtSAMS recombinant protein.
Fig. 5 Spot assay of pET28(b) and pET28(b)-PtSAMS recombinant protein in E. coli cells with NaCl and KCl treatment; 10 μL from 10−3 to 10−5 dilution series were spotted on (a) control (LB-only) plate, or (b) LB plate supplemented with 400 mM NaCl, and (c) 400 mM KCl.
Fig. 6 Growth analysis of pET28(b) and pET28(b)-PtSAMS recombinant protein in E. coli cells on liquid medium with NaCl and KCl treatment; (a) LB medium, (b) 400 mM NaCl, and (c) 400 mM KCl. OD600 was recored at 1 hour interval up to 12 hours and mean values are represented in graph.
Overexpression of S-Adenosylmethionine Synthetase Gene from Pyropia tenera Enhances Tolerance to Abiotic Stress

Gene specific primers used in the study.

Name Sequence (5′-3′) Purpose
PtSAMS-F CACCATGGCAGCCATGAAG For full length of PtSAMS gene
PtSAMS-R ACGACGCTCTAGAGCTCAC For full length of PtSAMS gene
PtSAMS-NdeI-F CCCCATATGGCAGCCATGAAGAz) For protein expression
PtSAMS-XhoI-R TCACTCGAGGAGCTCAAGCz) For protein expression
PtSAMS-303-F CCAGTCCCCTGAGATTGCTG Probe for southern blot analysis
PtSAMS-955-R CTGAAATCGGCTCGGCAATG Probe for southern blot analysis
PtSAMS-406-F GAGGACCTGATGCCCTTGAC RT-qPCR
PtSAMS-591-R CTGCGTGCTGATGACAATCG RT-qPCR
PtGAPDH-2771-F CGCCGAGTACATTGTCGAGT RT-qPCR
PtGAPDH-3002-R GTACTTCTCGTGCAGCACCT RT-qPCR

z)Bold letters indicate restriction enzyme sites.

GenBank and NCBI reference sequence accession numbers of SAMS sequences.

Species Amino acid sequence length NCBI reference sequence
Rhodophyta Pyropia yezoensis 384 ACJ98094.1
Galdieria sulphuraria 393 XP_005703068.1
Phaeophyta Ectocarpus siliculosus 397 CBJ30117.1
Undaria pinnatifida 397 AEK80411.1
Chlorophyta Ostreococcus tauri 386 XP_003083240.1
Chlamydomonas reinhardtii 390 XP_001696661.1
Arabidopsis thaliana 393 NP_171751.1
Oryza sativa 396 AAT94053.1
Diatoms Thalassiosira pseudonana 450 XP_002288884.1
Fistulifera solaris 384 GAX17078.1
Bacterial Escherichia coli 384 AAA24164.1

Amino acid sequence identity matrix comparison of PtSMAS with SAMS of other species.

PtSAMS GsSAMS CrSAMS EsSAMS AtSAMS
PtSAMS 100% 76.84% 70% 69.6% 66.75%
GsSAMS 100% 69.77% 68.91% 67.59%
CrSAMS 100% 65.92% 81.14%
EsSAMS 100% 64.25%
AtSAMS 100%
Table 1 Gene specific primers used in the study.

Bold letters indicate restriction enzyme sites.

Table 2 GenBank and NCBI reference sequence accession numbers of SAMS sequences.
Table 3 Amino acid sequence identity matrix comparison of PtSMAS with SAMS of other species.