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1 cold-shock in either defined rich or defined minimal media.
2 ional essentiality screen based on growth in minimal media.
3 essential and synthetic lethal reactions and minimal media.
4 B. pseudomallei DeltagspD grown in rich and minimal media.
5 a but grow less well than wild-type cells in minimal media.
6 measuring bacterial growth rates on lactose minimal media.
7 to erect aerial hyphae and differentiate on minimal media.
8 xual reproduction when grown on glucose (1%) minimal media.
9 itive to oxidative stress and grew poorly on minimal media.
10 strains lacking the plasmid in both rich and minimal media.
11 of Escherichia coli K-12 MG1655 to growth in minimal media.
12 vels of ptsG mRNA and grow poorly in glucose-minimal media.
13 Delta trpF E. coli strain from starvation on minimal media.
14 ary phase, carbon starvation, or rich versus minimal media.
15 th carbohydrate amendment in Cedars-specific minimal media.
16 cell growth at most temperatures in rich and minimal media.
17 e dispensable for E. coli growth in rich and minimal media.
18 wild type for chemotaxis, grown in rich and minimal media.
19 48 cells were highly motile in both rich and minimal media.
20 tly functional to permit growth on succinate minimal media.
21 of gene expression during growth in rich and minimal media.
22 revisiae grown in either 14N or 15N-enriched minimal media.
23 lection in Luria-Bertani (LB) and in glucose minimal media.
24 -chain poly P and are defective in growth in minimal media.
25 as performed on cells grown in both rich and minimal media.
26 res thiamin and nicotinic acid for growth in minimal media.
27 re produced in both rich complex and defined minimal media.
28 ly robust biofilm cultures) in both rich and minimal media.
29 alter the growth rate of E. coli in rich or minimal media.
30 s were defective for growth on nitrogen-rich minimal media.
31 ve been measured for cells grown in rich and minimal media.
32 to be nonessential in both rich and glucose-minimal media.
33 eas E. coli is a saprophyte that can grow on minimal media.
34 ing from 0 to 1 mM in both nutrient-rich and minimal media.
36 ly coupled during growth in both complex and minimal media, although they exhibit different patterns
37 S. meliloti bluB mutant is unable to grow in minimal media and fails to establish a symbiosis with al
38 ssion of avrRpt2, hrpZ, and hrpL in vitro in minimal media and in vivo when infiltrated into Arabidop
39 l growths of S. cerevisiae grown in rich and minimal media and independent MudPIT analyses of each we
40 scripts to a lesser degree or those grown in minimal media and other environmentally relevant conditi
41 otein kinase was expressed to high levels on minimal media and uniformly isotopically enriched with 1
42 at 37 degrees C in defined rich and defined minimal media, and after a shift to 15 degrees C for eit
43 antibiotics on rich media, fails to grow on minimal media, and identifies a gene whose predicted pro
44 controls some genes differently in rich and minimal media, and that Snf/Swi control is exerted at th
46 ants were analyzed in both nutrient-rich and minimal media, and the results confirmed the presence of
47 chvD-lacZ fusion, occurred in both rich and minimal media as well as under conditions that induce vi
48 ligosaccharides, and peptides in complex and minimal media at 98 and 72 degrees C to the same extent
49 quired for the growth of vegetative cells in minimal media at very low inoculum densities, as well as
50 X expression is enhanced 3-fold by growth on minimal media but not induced by N-methyl-L-tryptophan,
51 ent RapiGest from cells grown under rich and minimal media conditions using 14N and 15N ammonium sulf
52 estored growth of S. enterica ridA mutant in minimal media constituted to increase 2AA stress in the
53 Cells of Bacillus species grown in rich and minimal media contained low levels of GB, but GB levels
54 , five bacterial species were cultured in M9 minimal media containing a range of glucose concentratio
57 imately 2400 cytosolic proteins expressed in minimal media depend absolutely on the GroEL/GroES chape
58 c exchanges that sustain the heterotrophs in minimal media devoid of any organic carbon source, point
60 n contrast, many of the genes upregulated in minimal media encoded enzymes for synthesis of amino aci
61 ubunits is blocked, showed growth defects in minimal media even when supplemented with lipoate and de
62 g growth on nonfermentable carbon sources in minimal media for the mis1 deletion strain but not for t
63 sing the enzyme in Escherichia coli grown on minimal media in the presence of a number of divalent me
64 he presence of toluidine blue or on glycerol minimal media in the presence of zinc, suggesting that a
66 th aerobically and anaerobically in rich and minimal media, indicating that it is not specifically as
67 ma factor, sigma(S), when cells are grown in minimal media, it shows only a modest dependence on sigm
69 g a disruption in argE was unable to grow on minimal media lacking supplemental arginine and formed f
71 DGC genes stimulated growth in both rich and minimal media of a Shigella flexneri mutant that produce
72 cerevisiae strain S288C grown in either 14N minimal media or 15N-enriched minimal media were mixed a
73 Much of the ability to grow on GABA-amended minimal media or in Arabidopsis pop2-1 leaves could be r
74 , including Luria-Bertani (LB) medium, or in minimal media or under heat shock or ethanol stress cond
75 measurements of >2,500 proteins in rich and minimal media provide a detailed view of the cellular re
77 PII and GlnK have a severe growth defect on minimal media, resulting from elevated expression of the
78 thiamine during the growth of Variovorax in minimal media show high levels of thiamine production, u
79 2 MG1655 grown on either lactate or glycerol minimal media showed that (1) growth phenotypes at the e
80 how that the glucose concentration in the M9 minimal media strongly affects the concentration of sulf
81 by slowing the growth rate of each strain in minimal media, suggesting that certain gene products are
83 rate but also become sensitive to alanine in minimal media supplemented with glucose and ammonium.
85 -requiring strain grew strongly on synthetic minimal media supplemented with methionine, aspartate or
90 ency via fitness profiling in rich (YPD) and minimal media to identify all genes that confer a haploi
92 d-type and Deltafnr strains grown in glucose minimal media under aerobic or anaerobic conditions.
93 tations were grown in both nutrient-rich and minimal media under steady-state conditions known to alt
94 oses serine auxotrophy, preventing growth in minimal media used for isotopic labeling of recombinant
95 ae proteome resulting from cultures grown in minimal media using galactose, glucose, or raffinose as
96 Saccharomyces cerevisiae cultured in rich or minimal media was analyzed by oligonucleotide arrays and
97 f the acid-resistance phenotype in acidified minimal media was dependent upon the supplementation of
98 in either 14N minimal media or 15N-enriched minimal media were mixed and digested into a complex pep
100 ts under anaerobic, mesophilic conditions in minimal media with acetate as the sole source of energy
101 eltacycA confers ciprofloxacin resistance in minimal media with D-serine, and frdD V111D confers ampi
102 ispensable if the bacteria are cultivated on minimal media with low concentrations of osmotically act
103 Growth of P. gingivalis strain A7436 in a minimal media with normal human serum as a source of hem
104 genes is induced via CreBC during growth in minimal media, with the exception of malE, which is more