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Multiplex PCR for amplifying mitochondrial and nuclear products in plants


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  "publisher": "Zenodo", 
  "DOI": "10.5281/zenodo.13669", 
  "author": [
      "given": "", 
      "family": "sprotocols"
  "issued": {
    "date-parts": [
  "abstract": "Authors: Magdalena L\u00fctz & Noem\u00ed Colombo\n\n\n### Abstract\n\nPCR amplification of a single copy nuclear region and a multicopy mitochondrial region together results in the competition between targets unequally represented in a single tube PCR reaction. This protocol allows a correct amplification of both products by adopting a sequential lay out of the PCR reaction which enhances the amplification of the nuclear gene in the first step and the mitochondrial gene in the final step.\n\n### Introduction\n\nMultiplex PCR was first described by Chamberlain et al., 1988. It allows simultaneous amplification of many targets in a single reaction by using more than one pair of primers. Our objective was to amplify a nuclear region and a mitochondrial region which are present in different numbers in the cell due to the polyploid nature of mitochondrial DNA. Multiplex PCR of a single copy nuclear region and a multicopy mitochondrial region together results in the competition between targets unequally represented. We designed a two-steps PCR reaction: in the first one, a 25\u00b5l reaction was set adding only the primers amplifying the nuclear target. In this case, the nuclear target was a 170 bp SCARE3M12 marker associated to the restorer of fertility allele Rf3 in maize (Zhang et al., 2006). After 10 cycles the reaction was stopped and the primers to amplify the mitochondrial region were added, maintaining constant concentrations for the buffer, Mg2 Cl and dNTPs in a 27 \u00b5l reaction. The mitochondrial primers amplify a 799 bp region of the cytoplasmic male sterility-associated orf 355 in CMS-S maize (Liu et al., 2002). Both sets of primers were chosen so that they had the same annealing temperature. The sequential lay out of the reaction allowed for efficient amplification of both products. \n\n### Materials\n\n1. Plant material: Inbred line Va58-CMS-S/Rf3Rf3 from Maize Genetics and Genomics Database -Maize GDB- (Lawrence et al., 2007). Inbred line LE 08-309-Mito N/rf3rf3 from IGEAF INTA.\n  - Genomic maize DNA was extracted from leaves of seedlings according to Saghai-Maroof et al., (1984).\n- PCR\n  -Taq DNA Polymerase (recombinant) (5 U/\u00b5L) Thermo Scientific Fermentas; includes 10 X PCR Buffer (Tris-HCl pH 8.8 75 mM, (NH4)2SO4 20 mM) and 25 mM Mg2CL\n  -dNTPs\n- Nuclear primers:\n  - SCARE12M7-F: 5\u00b4-ATGGAGATTGAAGGGACG-3\u00b4\n  - SCARE12M7-R: 5\u00b4-ACACGGAAGACCATGACC-3\u00b4\n- Mitochondrial primers:\n  - CMSSF: 5\u00b4-CAACTTATTACGAGGCTGATGC-3\u00b4\n  - CMSSR: 5\u00b4-AGTTCGTCCCATATACCCGTAC-3\u00b4\n- Agarose gel electrophoresis\n  - Agarose D1 Max Biodynamics.\n  - Buffer TBE 0,5X (Tris Base 45 mM, Boric acid 45 mM; EDTA 1 mM)\n  - 6X Xylene cyanol dye\n  - Ethidium bromide (10 mg/mL)\n  -100 bp ladder DNA marker. Axygen Biosciences.\n\n### Equipment\n\n1. Thermocycler Biometra T3\n- Mini-Sub-cell GT electrophoresis system. Bio-Rad\n- Power Pack 300 Power supply. Bio-Rad\n\n### Procedure\n\n1. First step:\n  - 1.1. Prepare the PCR master mix according to Table 1.\n  - 1.2. Add 24 \u00b5l of master mix to each PCR eppendorf tube.\n  - 1.3. Add 1 \u00b5l of genomic DNA to each tube. Mix well.\n  - 1.4. Set the thermal profile in the thermocycler according to Table 2 and run the PCR reaction for 10 cycles.\n- Second step\n  - 2.1. Prepare the master mix according to Table 3.\n  - 2.2. Add 2 \u00b5l of the master mix to each PCR tube.\n  - 2.3. Set the thermal profile in the thermocycler according to Table 2 and run the PCR reaction for 35 cycles.\n- Agarose Gel Electrophoresis\n  - 3.1. Make a 2% agarose gel (w/v) in 0.5 X TBE with ethidium bromide.\n  - 3.2. Load the gel adding 1X xylene cyanol dye to each sample. Include a 100bp ladder DNA marker.\n  - 3.3. Run the gel at 80 volts for 60 minutes and visualize under UV light.\n\n### Timing\n\nThe time requiered for preparing the PCR master mix is variable depending on the number of samples. The complete PCR multiplex run takes about 3 hours. The agarose gel is run for 1 hour.\n\n### Anticipated Results\n\nTwo PCR products are expected in the inbred line Va58-CMS-S/Rf3Rf3: a 799 bp product corresponding to the mitochondrial orf 355 and a 170 bp corresponding to the nuclear SCARE12M7 associated to the Rf3 allele. No PCR product is expected in the inbred line LE 08-309-Mito N/rf3rf3, which carries neither the orf355 nor the Rf3 allele (Figure 1).\n\n**Figure 1: Expected multiplex PCR products** \n\n![Figure 1]( "Figure 1")\n\n- Lane1: 100 bp DNA ladder Axygen\n- Lane 2: Va58-CMS-S/Rf3Rf3\n- Lane 3: LE 08-309-Mito N/rf3rf3\n- Lane 4. Negative cotrol: no DNA added\n\n### References\n\n1. Chamberlain, J.S., Gibbs, R.A., Ranier, J.E., Nguyen, P.N., Caskey C.T. 1988. Deletion screening of the Duchenne muscular dystrophy locus via multiplex DNA amplification. *Nucleic Acids Res*., 16:11141-11156.\n- Lawrence, C.J., Schaeffer, M.L., Seigfried, T.E., Campbell, D.A. Harper, L.C. 2007. MaizeGDB\u2019s new data types, resources and activities. *Nucleic Acids Res*., 35: D895 \u2013 900.\n- Liu, Z., Peter, S.O., Long, M., Weingartner, U., Stamp, P. Kaeser, O. 2002. A PCR Assay for Rapid Discrimination of Sterile Cytoplasm Types in Maize. *Crop Sci*., 42: 566 \u2013 569.\n- Saghai-Maroof, M., Soliman, K., Jorgensen, R. Allard, R. 1984. Ribosomal DNA spacer-length polymorphisms in barley: Mendelian inheritance, chromosomal location and population dynamics. *P. Natl. Acad. Sci*. USA, 81: 8014 \u2013 8018.\n- Zhang ZF, Wang Y, Zheng YL (2006) AFLP and PCR-based markers linked to Rf3, a fertility restorer gene for S cytoplasmic male sterility in maize. *Mol. Gen. Genomics*, 276:162-169.\n\n### Acknowledgements\n\nFunds from PNCER-021321 INTA.\n\n### Author Information\n\nMagdalena L\u00fctz, IIB-Intech-UNSAM, Argentina \n\nNoem\u00ed Colombo, Instituto de Gen\u00e9tica, INTA Castelar, Argentina  \n\n Correspondence to: Noem\u00ed Colombo ([](\n\n\n*Source: [Protocol Exchange]( Originally published online 31 December 2013*.", 
  "title": "Multiplex PCR for amplifying mitochondrial and nuclear products in plants", 
  "type": "article-journal", 
  "id": "13669"
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