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WU095/Kulaev
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Polyphosphates in chemical and biological evolution
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Table 10.1 Activity of polyphosphate glucokinase and ATP glucokinase in different bac-
teria. Results are given in mE per mg of protein (Uryson and Kulaev, 1968; Uryson et al.,
1973; Szymona et al., 1962; Szymona et al., 1967).
PolyP ATP PolyP glucokinase/
Organism glucokinase glucokinase ATP glucokinase
Micrococcus lysodeikticus 34 7 4.9
Micrococcus citreus 43 15 2.9
Micrococcus aurantiacus 23 9 2.6
Micrococcus sulfureus 12 4 3.0
Micrococcus sp. strain 11 5N 97 23 4.2
133N 146 35 4.2
220N 124 39 3.2
Mycococcus sp. strain 36F 125 54 2.3
61N 14 8 1.8
196N 94 50 1.9
357N 199 97 2.0
12N 125 45 2.8
114N 66 19 3.5
338N 54 19 2.9
Sarcina lutea 34 8 4.2
Staphylococcus aureus 0 63 —
Streptococcus faecalis 0 97 —
Propionibacterium shermanii 100 10 10
Propionibacterium friedenreichii 37 Trace 1
Lactobacterium lindneri 0 110 —
Lactobacterium cereale 0 157 —
Mycobacterium tuberculosis 87 10 8.7
Mycobacterium scotochromogenus 237 118 2
Mycohacterium phlei 169 130 1.3
Mycobacterium smegmatis 263 233 1.2
Mycobacterium friburgensis 177 155 1.1
Arthrobacterium (Mycobacterium) 173 97 1.8
citreus
Arthrobacterium (Mycobacterium) 23 11 2.1
globiformis
Corynebacterium xerosis 19S 62 2.0
Proactinomyces ruber strain 45 1 247 26 9.5
Nocardia (Proactinomyces) madurea 150 22 7.0
Nocardia (Proactinomyces) turbatus 43 15 2.9
Micropolyspora viridis 233 107 2.2
Micropolyspora mesophylica 92 51 1.8
Nocardia (Proactinomyces) gardneri 67 57 1.2
Nocardia (Proactinomyces) minima 172 158 1.1
Nocardia (Proactinomyces) 83 110 0.8
brasiliensis
Nocardia (Proactinomyces) 78 187 0.4
asteroides
Proactinomyces ruber strain 408 30 273 0.1
