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. 2012 Jun 20;13:138. doi: 10.1186/1471-2105-13-138

Table 2.

Avoiding hairpin formation in 22 bases long sequences

No.
 ΔG
 Feldkamp
 ΔG
 EGNAS
  kcalmol 5’ → 3’ kcalmol 5’ → 3’
1
 -0.3
 CCTGCGTCGTTTAAGGAAGTAC
 *
 GCTCATTTTACACTCTCCACCG
2
 0.6
 CAGCCAAGATTCTTTTACCGCC
 *
 CACACGGAGGCACAGAATAAAC
3
 0.4
 CCATCATGTGTGCCGAGATATG
 *
 GAACAGCGAAGAGATAGGAAGG
4
 0.3
 CTTCTCCTAACTGCACGGAATG
 *
 CCTTACTCGCCTTTCACATTCC
5
 -0.3
 GGTCCGGTCATAAAGCGATAAG
 *
 CAACTCACGCCACTACATCAAC
6
 0.7
 GTCCTCGCCTAGTGTTTCATTG
 2.4
 CAAGCCGTCAATAGTCCAAGTC
7
 0.2
 GGATCTGGCGCATAGACAATTC
 2.1
 CTGCTGAACCTGATACCGAAAC
8
 -0.1
 CACGTCACTGTTAATCCGAAGC
 1.8
 CAGTATTTCCAGTCAGTTCCGC
9
 -0.1
 GTGGAAAGTGGCAATCGTGAAG
 1.8
 CCTGTCGTTTTCTATGCTCCTG
10
 0.6
 GGACGAATACAAAGGCTACACG
 1.8
 CCTGCCGATGACCTACTTTTTG
11
 -2.4
 CAAGGTCTGCTTGATTTGGAGG
 1.6
 CCGTTCTTTGTCCTTGCTTCTC
12
 -0.9
 GTTTTGAACGTAGTAGAGCCGG
 1.5
 GTGATTGGCTGGTGTTGGTTTG
13
 -0.2
 GTAGGTGTCGGTGCGAAATTAG
 1.3
 GCTCGTGGTCTTGTTATGTCTG
14
 -0.1
 CTAGAACCGTTACGAGTTTGCG
 1.1
 GTAGATTTGAGGTGCGTTGTGG
Lc
  
 5
  
 5
Lhp
  
 5
  
 2
Lsc
  
 6
  
 4
Lsl   5   5

Comparison with Feldkamp et al. [34]. Comparison of 22 bases long sequences generated by Feldkamp et al. [34] and with EGNAS. The subsequences {GGG;CCC} were forbidden. GC ends were demanded. Molar free enthalpies of the most stable hairpins.

*No hairpin structure possible.