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1 anganese-stabilizing proteins could not grow photoautotrophically.
2 tains the T192H mutation but is able to grow photoautotrophically.
3 p. PCC 7002 produced a mutant unable to grow photoautotrophically.
4 59N and deltapsbV:MSP-R 163L) failed to grow photoautotrophically.
5 pparently mobile Q(A), and is unable to grow photoautotrophically.
6 TC31 rates although it did not readily grow photoautotrophically.
7 Y1P is the only strain that did not grow photoautotrophically.
8 s very photosensitive and was unable to grow photoautotrophically.
9 The resultant strain could not grow photoautotrophically.
10 ontrol the growth rate of microalgae growing photoautotrophically.
11 that while PsbO-1-deficient plants can grow photoautotrophically (although at a reduced growth rate)
12 containing the alphabeta fusion protein grow photoautotrophically and assemble functional photosystem
13 cus elongatus is a cyanobacterium that grows photoautotrophically and converts carbon dioxide and wat
17 double mutation S79F/S88F in D2 did not grow photoautotrophically and had no functionally active PS I
18 (deltapsbV:MSP-D159N/R163L), the mutant grew photoautotrophically and the oxygen-evolving activities
19 ch yielded mutants which were unable to grow photoautotrophically and which could not evolve oxygen a
21 The upp knockout mutants are unable to grow photoautotrophically, and knockdown mutants exhibit a va
24 ld grow photoheterotrophically on glucose or photoautotrophically at elevated CO(2) concentrations (5
25 A btpA deletion mutant strain could not grow photoautotrophically at low temperature, and exhibited r
28 reinhardtii, a unicellular green alga, grows photoautotrophically at very low concentrations of inorg
30 mutants except for D557KPsaB/D566APsaB grew photoautotrophically, but the growth of D557KPsaB and D5
31 terotrophically, photoheterotrophically, and photoautotrophically, demonstrating that hopanoids are n
33 re isolated and purified to homogeneity from photoautotrophically grown Chlorobium tepidum, a moderat
34 use biochemical and biophysical analyses of photoautotrophically grown wild-type and mutant strains
35 algae have the metabolic flexibility to grow photoautotrophically, heterotrophically, or mixotrophica
37 fer of Chlamydomonas reinhardtii cells grown photoautotrophically in low light to higher light intens
38 Here, we report the first plant that grows photoautotrophically in the absence of carotenes: a toba
39 m Synechocystis sp. PCC 6803 were propagated photoautotrophically in the presence of L-[1-(13)C]alani
40 Chlamydomonas is therefore not able to grow photoautotrophically in zinc-limiting conditions, but su
41 The D473A and D473E mutant strains can grow photoautotrophically, indicating that Asp-473 is not ess
42 although Symbiodinium strain SSB01 can grow photoautotrophically, it can grow mixotrophically or het
44 nder standard conditions were unable to grow photoautotrophically or evolve oxygen when grown at low
47 ormous metabolic flexibility, growing either photoautotrophically or heterotrophically on more than 5
48 0% of variants chosen at random and cultured photoautotrophically over many generations accumulated t
49 levels of lipids, carbohydrates and proteins photoautotrophically, thus attracting considerable inter
51 iously demonstrated that tobacco plants grow photoautotrophically using Rubisco from Synechococcus el
52 reen alga Chlamydomonas reinhardtii can grow photoautotrophically utilizing CO(2), heterotrophically
53 icroM chloride), it lost the ability to grow photoautotrophically while the control strain exhibited
54 , the sufA, iscA, and sufA iscA mutants grew photoautotrophically with doubling times that were simil
56 II) but lacking photosystem I (PSI) can grow photoautotrophically with O2 evolution, using atmospheri