Reaction

Type

Enzyme

ΔE

E_a

E_c

t₀

n_B

Catalyzed basic compound synthesis

2HCN + 2H₂O + H₂ → Gly(COOH−CH₂NH₂) + NH₃

1

GlyGly

223

92.8

8.3

0.70

25

5HCN + 2H₂O + 6H₂ → Pro(C₅H₉NO₂) + 4NH₃

1

ProPro

741.7

256.1

0.53

0.47

53

3HCN + 2H₂O + 2H₂ + H₂S → Cys(COOH−CHNH₂−CH₂−SH) + 2NH₃

1

GlyGlyGly

1232.4

144.3

0.94

0.74

39

4HCN + H₂O + H₂ → Cyt(C₄H₅N₃O) + NH₃

1

Pro

403.5

140.2.

17.5

0.76

28

5HCN + H₂O → Gua(C₅H₅N₅O) + H₂

1

GlyPro

505.

145.9

6.56

0.99

36

5HCN + H₂O → Gua(C₅H₅N₅O) + H₂

1

ProGly

505.

145.9

27.6

0.99

36

FeS + H₂S → FeS₂ + H₂

1

Cys

41.

160.6

0.02

3.45

16

Cyt(C₄H₅N₃O₃) + HCN + 6H₂ → Pro(C₅H₉NO₂) + H₂O + 2NH₃

1

582.9

21.7

1.02

16

3HCN + 2H₂O + 4H₂ + H₃PO₄ → Glyc1ph + 3NH₃

1

GlyGlyGly

395.5

139.5

6.6

0.99

27

simple PNA polymerization

Gly + Gly + GuaGua → GlyGuaGlyGua(6H−) + 2H₂O

5

−94.2

16.4

1.53

53

Gly + Gly + Gly + Gua3 → GlyGua3(12H−) + 3H₂O

5

−109.8

16.5

1.60

81

Pro + Pro + CytCyt → ProCytProCyt(9H−) + 2H₂O

5

692.8

5.9

2.26

63

Gly + Pro + GuaCyt → GlyGuaProCyt(13H−) + 2H₂O

5

−146.5

15.1

1.89

61

Gly + Pro + CytGua → ProCytGlyGua(13H−) + 2H₂O

5

−146.5

15.1

1.89

61

Gly + Pro + GuaCyt → GlyCytProGua(13H−) + 2H₂O

5

−146.5

15.1

1.89

61

PNB polymerization

Cyt + Cyt → CytCyt(3H−)

2

491.

5.0

1.31

26

Gua + Gua → GuaGua(3H−)

2

705.3

2.9

1.14

34

Gua + Gua + Gua → Gua3(6H−)

2

1089.5

3.7

1.14

51

Gua + Cyt → GuaCyt(6H−)

2

661.2

6.9

1.22

30

Cyt + Gua → CytGua(6H−)

2

661.2

6.9

1.22

30

peptide formation

GlyGuaGlyGua + 2H₂O → GuaGua(3H−) + GlyGly + H₂O

6

661.6

12.5

2.46

58

ProCytProCyt + 2H₂O → CytCyt(3H−) + ProPro + H₂O

6

566.1

7.0

3.61

62

GlyGuaProCyt + 2H₂O → GuaCyt(6H−) + GlyPro + H₂O

6

308.6

9.2

3.05

58

ProCytGlyGua + 2H₂O → CytGua(6H−) + ProGly + H₂O

6

1008.

3.0

3.05

58

GlyGuaGlyGuaGlyGua + 3H₂O → GuaGuaGua(8H−) + GlyGlyGly + 2H₂O

6

640.6

8.1

1.13

90

multiple PNA polymerization

GlyGua + GlyGua → GlyGuaGlyGua(6H−)

4

126.

3.0

1.66

48

3GlyGua → (GlyGua)3(12H−)

4

252.

3.9

1.66

72

ProCyt + ProCyt → ProCytProCyt(9H−)

4

189.

4.3

1.66

48

GlyGua + ProCyt → GlyGuaProCyt(13H−)

4

273.

5.80

1.66

48

GlyGua + ProCyt → ProCytGlyGua(13H−)

4

273.

5.80

1.66

48

PNA building

Gly + Gua → GlyGua + H₂O

3

339.4

14.6

1.38

26

Gly + Cyt → GlyCyt + H₂O

3

1156.

17.2

1.47

22

Pro + Cyt → ProCyt + H₂O

3

−44.3

12.6

1.79

30

Pro + Gua → ProGua + H₂O

3

62.8

11.1

1.67

34

Leu + Gua → LeuGua + H₂O

3

339.

10.

1.79

38

His + Cyt → HisCyt + H₂O

3

109.4

11.9

1.70

32

diverse synthesis and energy cycles

CO₂ + NH₃ + H₂ → HCN + 2H₂O

7

−90.9

74.2

3.45

6

CO₂ + NH₃ + SH₂ → HCN + 2H₂O + S

7

−111.5

6.5

3.45

7

FeS + H₂S → FeS₂ + H₂

7

41.

160.6

3.45

3

CO₂ + H₂ → CO + H₂O

7

90.1

115.8

0.23

3

CO + H₂O → HCOOH

7

548.8

73.3

0.20

3

Gly + H₂O → Gle(HCO−HCOH−H₂COH) + NH₃

7

346.2

1.62

9

basic compounds decay by hydrolysis C=O

Gly(COOH−CH₂NH₂) + H₂O → OH−CH₂NH₂ + HCOOH

8

−335.9

9.0

1.66

11

Cys(COOH−CHNH₂−CH₂−SH) + H₂O → OH−CHNH₂−CH₂−SH + HCOOH

8

−157

6.6

5.29

15

Pro(COOH−ring(−NH−)) + H₂O → OH−ring() + HCOOH

8

−612.4

5.2

2.45

19

Cyt(ring(−C=O−)) + H₂O → ring() + HCOOH

8

−89.4

20.5

1.30

15

Gua(ring(−C=O−ring(−NH−CH−N−))) + H₂O → ring(−ring(−NH−CH−N−)) + HCOOH

8

−15.1

5.2

1.14

19

direct peptide polymerization

Gly + Gly → GlyGly + H₂O

9

−117.7

64.8

1.66

18

Gly + Gly + Gly → GlyGlyGly + 2H₂O

9

−99.5

83.8

1.66

27

Pro + Pro → ProPro + H₂O

9

−1097.7

27.9

2.45

34

Gly + Pro → GlyPro + H₂O

9

−258.

43.7

2.02

26

Gly + Pro → ProGly + H₂O

9

−258.

43.7

2.02

26

GlyGly + Gly → GlyGly + H₂O

9

+18.2

48.

1.77

24