Huijun Fan scite author profile

Huijun Fan

2Publications

11Citation Statements Received

53Citation Statements Given

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Ocean University of China

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Effects of secondary structures of DNA templates on the quantification of qPCR

Fan

Wang

Komiyama

et al. 2019

Journal of Biomolecular Structure and Dynamics

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In the current design of qPCR systems, the sequences of primers are the primary concerns. The secondary structures of DNA templates have not been much considered, although they should be also critically important. In this paper, various hairpins with different stem lengths and loop sizes are placed near primer-binding sites, and their effects on the amplification efficiency of qPCR are systematically investigated. When a hairpin is formed either in the inside of the amplicon or in its outside, the amplification is notably suppressed. The magnitudes of suppression increase with the increase of stem length and the decrease of loop size, and are especially significant for the hairpins formed inside the amplicon. With very long stems (e.g., 20-bp), the effect is still more drastic, and no targeted amplification products are formed. On the basis of melting temperature (T) measurements, these suppression effects of hairpins have been mostly ascribed to competitive inhibition of primer binding to the template. It has been concluded that, in order to design precise and reliable qPCR systems, at least 60-bp sequences around primer-binding sites, both inside and outside the amplicons, must be analyzed to confirm that stable secondary structures are not formed in the vicinity of primer-binding sites.

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Thermus thermophilus DNA Ligase Connects Two Fragments Having Exceptionally Short Complementary Termini at High Temperatures

et al. 2019

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Thermus thermophilus DNA ligase (Tth DNA ligase) is widely employed for cloning, enzymatic synthesis, and molecular diagnostics at high temperatures (e.g., 65 °C). It has been long believed that the complementary ends must be very long (e.g., >30 bp) to place two DNA fragments nearby for the ligation. In the current study, the length of the complementary portion was systematically varied, and the ligation efficiency was evaluated using the high resolution melting (HRM) method. Unexpectedly, very short oligonucleotides (7–10 nt) were successfully ligated on the complementary overhang attached to a dsDNA at 70 °C. Furthermore, sticky ends with the overhang of only 4 nt long, available after scission with many restriction enzymes, were also efficiently ligated at 45–70 °C. The ligation yield for the 6-nt-long sticky ends was as high as 80%. It was concluded that Tth DNA ligase can be used as a unique tool for DNA manipulation that cannot be otherwise easily accomplished.

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Huijun Fan

Effects of secondary structures of DNA templates on the quantification of qPCR

Thermus thermophilus DNA Ligase Connects Two Fragments Having Exceptionally Short Complementary Termini at High Temperatures

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