Results
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| Property | Organism | Value | Units | ID | Details |
|---|---|---|---|---|---|
| Midpoint redox potential of plastocyanin, Association rate constant and photosystem I reduction constant | Cyanobacteria Prochlorothrix hollandica | Table - link | N/A | 104020 | Navarro JA, Myshkin E... |
| Rate constant for the reduction of photosystem I from different organisms by Prochlorothrix plastocyanin | Various | Table - link | N/A | 104019 | Navarro JA, Myshkin E... |
| Isoelectric point of plastocyanin | Cyanobacteria Anabaena | 8-9 | Unitless | 104023 | De la Cerda B, Navarro JA... |
| isoelectric point of plastocyanin | Cyanobacteria Synechocystis PCC 6803 | 6 | Unitless | 104022 | De la Cerda B, Navarro JA... |
| Genome size of marine β-cyanobacteria | Cyanobacteria | 2.2 – 3.6 | Mb | 117045 | Whitehead L, Long BM... |
| Genome size of marine α-cyanobacteria | Cyanobacteria | 1.6 – 2.8 | Mb | 117043 | Whitehead L, Long BM... |
| Estimated redox midpoint potentials in photosystems | Unspecified | Table - link | Volts | 106636 | Noy D, Moser CC, Dutton... |
| Nitrogen fixation rate of cyanobacteria associated with rice paddies | Cyanobacteria | 2,000 - 3,000 | mg N/m^2/yr | 110428 | Galloway et al., Nitrogen... |
| Origin of microscopic cyanobacteria-like organisms and their biovolume | Cyanobacteria | evolved by ∼3,500 - 3,400Mya: biovolume of ∼3.4×10^−6mm^3 | N/A | 113316 | Smith et al., Body size... |
| Summary of morphological and physiological changes in cyanobacteria symbiotically associated with hornworts and the liverwort Blasia | Cyanobacteria | Table - link | N/A | 109178 | Adams DG, Duggan PS.... |
| Time of branching of G. violaceus from other cyanobacteria | Cyanobacteria Gloeobacter violaceus | ~2.7 | Ga ago | 107402 | Bernát G, Schreiber U... |
| General features of the genome of Synechococcus UTEX 2973 compared to genomes of other related cyanobacteria | Cyanobacteria Synechococcus spp. | Table - link | N/A | 112487 | Yu J et al., Synechococcus... |
| Size (diameter) of most abundant cyanobacteria | Prochlorococcus | 0.6 (0.5-0.7) | µm | 101520 | Partensky F, Hess WR... |
| Global net primary production of cyanobacteria | Biosphere | Prochlorococcus 4 (8.5% of ocean net primary production (onpp)) Synechococcus 8 (16.7% of onpp) | Gt C/year | 112103 | Flombaum P et al., Present... |
| Evolution of oxygenic photosynthesis by cyanobacteria | Biosphere | ~2.8 | Billion years ago | 114975 | Kihara S, Hartzler DA... |
| Photosynthetic carbon response parameters of Synechococcus spp. and Cyanobium spp. | Cyanobacteria | Table - link | N/A | 117047 | Whitehead L, Long BM... |
| Distribution of global net primary production (NPP) between cyanobacteria and eukaryotic algae | Biosphere | Cyanobacteria (Prokaryotic) 10 - 25%: Eukaryotic algae 75 - 90 | % | 115193 | Mackinder et al., A repeat... |
| Fraction of oceanic primary productivity contributed by oceanic cyanobacteria | Biosphere | ≤50 | % | 117042 | Whitehead L, Long BM... |
| Minimum DNA content in cyanobacteria and eukaryotic photolithotrophs | Various | 2.1 cyanobacteria: 44 eukaryotic photolithotrophs | fg/cell | 107094 | John A.Raven, Why are... |
| Latent period of viruses infecting ubiquitous marine cyanobacteria | Cyanophages | cyanophage S-BBS1 9 - 17 hours: podovirus P-SSP7 infecting Prochlorococcus MED4 8 hours | hours | 113065 | Weitz, Joshua S. Quantitative... |