Optimization of SRAP-PCR System for Valeriana officinalis var. latifolia and Primer Screening / 中国实验方剂学杂志

ABSTRACT

Objective:To establish the sequence-related amplified polymorphism （SRAP）-polymerase chain reaction （PCR） system for <italic>Valeriana officinalis</italic> var. <italic>latifolia</italic>，so as to lay the theoretical and technical foundations for the breeding of<italic> V. officinalis </italic>var. <italic>latifolia</italic>. Method:Single factor test was applied to investigate the effects of <italic>Taq</italic> Mix dose，Mg²⁺concentration，template DNA concentration，and <italic>Taq </italic>DNA polymerase content on SRAP-PCR amplification of <italic>V. officinalis </italic>var. <italic>latifolia</italic>，based on which the orthogonal experiments were performed to optimize the SRAP-PCR system for <italic>V. officinalis </italic>var. <italic>latifolia</italic>. The effective primers that could be used for genetic diversity studies of <italic>V. officinalis</italic> var. <italic>latifolia </italic>were selected under the optimal reaction condition. Result:The results of the single factor test showed that <italic>Taq </italic>Mix dose within the range of 8-11 μL resulted in better amplification. The addition of a low concentration of Mg²⁺，the medium to low concentrations of template DNA，or the low concentration of <italic>Taq</italic> DNA polymerase enhanced the amplification efficiency or richness. As demonstrated by the orthogonal experiments，the influencing degrees of related factors on SRAP-PCR amplification of <italic>V. officinalis</italic> var. <italic>latifolia </italic>were sorted in a descending order as follows： <italic>Taq</italic> Mix dose><italic>Taq</italic> DNA polymerase content>Mg²⁺ concentration>template DNA concentration. The optimal reaction system for <italic>V. officinalis</italic> var. <italic>latifolia </italic>was determined to consist of 11 μL of <italic>Taq</italic> Mix，30 ng of template DNA，0.025 mmol·L^-1Mg²⁺，1.5 U<italic> </italic>of<italic> Taq </italic>DNA polymerase，5 μmol·L^-1 forward primer，and 5 μmol·L^-1 reverse primer，which was supplemented to 20 μL with ddH₂O. The optimal annealing temperature was 36.8 ℃. A total of 17 pairs of effective primers with high band resolution and polymorphism were selected from 88 primer pairs for SRAP-PCR of <italic>V. officinalis</italic> var. <italic>latifolia</italic>. Conclusion:The established SRAP-PCR system for <italic>V. officinalis</italic> var. <italic>latifolia</italic> is stable， which can be used for genetic diversity studies of <italic>V. officinalis</italic> var. <italic>latifolia</italic>.