The DNA samples were mixed with appropriate volumes of 6X loading dye (0.25%bromophenol blue and 0.25% xylene cyanol and 30% glycerol in water) and subjected to electrophoresis through 0.8 to 1.5 % agarose gel in TAE buffer. The Goodview nucleic acid stain(supplied as 20000X; Beijing SBS Genetech Co. Ltd.) was added to the gel at the time of casting or 6X EZ-Vision One DNA dye(Amresco) was used as loading buffer, both being commercially available non-carcinogenic dyes to aid visualization of bands. The visualization was doneby fluorescence under UV light in a UV transilluminator

following the manufacturer’s instructions. For genomic DNA, 1ml culture was used for DNA isolationusing Qiagen or Invitrogen kits. The quality of plasmid/genomic DNApreparations was assessed following electrophoresis on 0.8% agarose gels

3ml (for high copy number)or 10 ml (for low-copy number) of cells from an overnight culture were pelleted by centrifuging for 5 minutes at 6000rpm forthe plasmid isolation which was carried out with the commercially available kits (Qiagen or Invitrogen)

Growth curves were generated to compare the growth rates of E. coli test strains with control strains manually. The appropriate dilutions of the overnight cultures in desired media were made and allowed to grow at required temperature till faint turbidity was visible. At this point samples were collected every 30 minutes until stationary phase was attained. The growth curves weregenerated using Microsoft Excel or SigmaPlot software and growth rates were calculated from the slope of the graph which, in turn, was used to calculate generation time

β-Galactosidase assay was performed according to(Miller, 1992).Cultures were grown to A600 of 0.4-0.6 from a 1:100 dilution of overnight cultures. Around 0.1-0.5 ml of culture was made up to 1 ml with Z-buffer and lysed with the addition of 100μl of chloroform and 50μl of 0.01% SDS solution. 0.2ml of freshly prepared 4mg/ml ONPG was added to start the reaction and incubated at 28oCtill the colour of the reaction mixture turned yellow. 0.5ml of 1M Na2CO3 was added to stop the reaction and the time duration from initial addition of ONPG to the stopping of the reaction was noted. The absorbance of reaction mix was taken at 420 nm (A420) afterspinning down the mix at 12000rpm for 3 minutes. The A600of the culturesused was also noted. The enzyme’sspecific activity (in Miller units) was calculated using the following equation: β-Galactosidase specific activity (Miller units) = (1000 ×A420) / t × v ×A600Where,‘t’ is the time period in minutes and ‘v’, the volume of culture used in ml

white colonies were recovered and purified to give growth. If the mutation caused synthetic lethality then white colonies (that lack the shelter plasmid) would not be observed since plasmid loss would result in growth arrest. Therefore, lethality was inferred when either white colonies were not recoveredor were recovered but failed to purify further

To determine whether a particular mutation conferred lethality in the ppGpp0or ΔdksAbackground, an assay was devised based on the use of an unstable, easy to cure shelter plasmidpRC7, similar to that described previously(Bernhardt & de Boer, 2004). In the wild-type strain carrying pRC7, this plasmid can be lost at a frequency of 20-30% in the absence of the selection. However, this will not be seen if the plasmid loss leads to cell death. Since the plasmid pRC7 confers a lac+phenotype, in the absence of the selection plasmid loss can be visualized on X-gal IPTG containing plates as white colonies in a Δlac strain whereas the colonies that retain the plasmid will appear blue.In order to carry outsynthetic lethal screen in the ppGpp0or ΔdksAstrains, the spoT or dksAgenes cloned in pRC7 under the control of lacpromoter were used. Theseshelter plasmids,namely,pRCspoT or pRCdksA, respectivelywere transformed into the ppGpp0or ΔdksAstrain. To test the synthetic growth phenotypes, the mutations of the genes to be tested were introduced by phageP1 transductions. The resultingstrains were grown overnight in LBcontaining the antibiotic selection for the shelter plasmid and IPTG for expression of spoTor dksA, subsequently washedin minimal A medium and dilutions(usually 10−5or 10−6) of these cultureswere spreadon X-gal and IPTG containing plates without antibiotic selection for the shelter plasmid. The phenotypes of the white colonies in comparison with the blue colonies were noted. Viability of the strains was inferred when

or absence of a metabolite or a particular temperature. An EOP of ≤0.01 suggests lethality of the strain on the test medium. For strains carrying IPTG-dependent plasmids, EOP was determined by growing the strains overnight in medium containing IPTG and appropriate antibiotic,and spottingserial dilutions (100or 10–1to 10–6) on +IPTG (permissive) and –IPTG (test) plates to observe growth. Theviability is scored by takingratio of the colony forming units per ml (cfu/ml = No. of colonies × dilution factor × 1000/volume of culture spotted (in μl) obtained on the –IPTG plate to that on the +IPTG plate and determinesthe EOP. Likewise, strains carrying Ts plasmids were cultured overnight at 30°C with the appropriate antibioticand the serial dilutions of this culture were spottedat two temperatures 30°C (permissive) and 42°C (non-permissive or test). The ratio of cfu/mlobtained on the test temperature to that on the permissive temperature determined the efficiency of plating at the test temperature

Efficiency of plating (EOP) is a measure of the ratio of number of colonies (obtained from a given volume of a suitable culture dilution) on a test medium to those on a control or permissive medium, and is a measure of cell viability on the former. It is a very sensitive test and is often used for determining the viability of a strain in the presence

C. LBON temperature-sensitivityStrains were streaked on LBON agar plates and after an overnight incubation at42°C, growth was monitored (compared to that on LBON at 30°C as control). Absence of single colony growth was taken to reflect temperature sensitivity. D. In vivotranscription termination phenotypes The rationale for each phenotype is described in the relevant section. SMG-sensitivityThe E. coli relA mutants exhibit SMG-sensitive (SMGs) phenotype,that is,growth-inhibition in the presence of serine, methionine and glycine at 1mM concentration each(Uzan & Danchin, 1978)and is proposed to be a consequence of transcriptional polarity exerted by a frameshift mutation in the ilvG gene on the expression of downstream genes of the ilvGMEDA operon(Lopes & Lawther, 1989).This test was therefore used to distinguish relA+from relA−strains. Growth in the presence of amino acids serine, methionine, and glycine (SMG) was scored on glucose-minimal A plates supplemented with each of the amino acids at 40μg/ml and compared with the growth on non-supplemented glucose-minimal A plates to score for SMG phenotype. galEp3assayThis assay was used to test for relief of transcriptional polarity in the rho and nusG mutants. The galEp3 (galE490*) mutation represents a 1.3kb IS2 insertion in the gal leader region (between the promoter and structural genes of the galETKM operon). The mutation causes transcriptional polarity on the structural genes due to Rho-dependent transcription termination within IS2. In this assay, the gal operon expression in a galEp3 mutant or its derivatives was monitored by usingMacConkey galactose indicator plates (with 1% galactose), where Gal+colonies are red, and Gal−colonies are white. Therefore, the depth of color serves as an indicator of relative levels of gal expression, i.e., the extent of transcriptional polarity relief

A.lacZphenotype lacZ+colonies were distinguished from lacZ–colonies on X-gal containing plate or MacConkey lactose plate. X-gal is non-inducing colourless substrate of β-galactosidase enzyme which upon hydrolysis yields dark blue indolyl group and hence the lacZ+colonies on X-gal plate appear as dark blue colonies. Similarly, on the MacConkey agar plateslacZ+colonies appear dark pink whereas lacZ–colonies remain colourless. B. UV-sensitivityTo check the UV-sensitivity of the strains qualitatively, the strains were streaked on duplicate LB-agar plates and one of the plates was UV-irradiatedwith a 15-W UV-germicidal lamp at a distance of 70cm for 30 seconds. The UV-exposed and unexposed plates were incubated overnight in the dark after wrapping with aluminium foil and then growth was scored. This test could differentiate a recA–strain (UVs) from a recA+strain (UVr)

desired temperaturefor 45 minutes and plated on an appropriate selective medium at various dilutions. An aliquot of cell suspension to which plasmid DNA was not added served as a negative control. B. Inoue method i. Preparation of high efficiency competent cells Competent cells for high efficiency transformation were prepared by the method of (Inoueet al., 1990)with few modifications. An overnight culture of the strain (routinely DH5α) was subculturedinto fresh sterile LB broth in 1:100 dilutions and grown at 18ºC to anA600of 0.55. The cells were harvested by centrifugation at 2500rpm for 10 minutes at4ºC. Thesecells wereresuspended in0.4 volumes of INOUE buffer andincubated in ice for 10 minutes. The cells were recovered by centrifugation at 2500rpm at 4ºC for 10 minutes and finally resuspended in 0.01 volume of the same buffer. Sterile DMSO was added to a final concentration of 7%. After incubating for 10 minutes in ice, the cells were aliquoted in 100μl volumes, snap frozen in liquid nitrogen and stored at –80ºC. ii. Transformation protocolFor transformation, the required number of vials wasthawed on ice and the transformation protocol as described for CaCl2method was employed

A. Calcium chloride(CaCl2)method For routine plasmid transformation, following method which is a modification of that described by(Cohenet al.,1972)was used. An overnight culture of recipient strain was subcultured 1:100 in fresh LB medium and grown till mid-exponential phase. The culture was chilled on ice for 20 minutes, and the steps thereafter performed at 4ºC. 10 ml of culture was centrifuged and pelletwas resuspended in 5 ml of 0.1M CaCl2. After 5 minutes of incubation on ice, the cells were again centrifuged and resuspended in 1ml of 0.1M CaCl2. The suspension was incubated onice for 45 minutes. To the 100μl aliquot of the cellsuspension plasmid DNA (20-200ng in less than 10μl volumes) was added, incubated for 30-40 minutes on ice and given a heat shock for 90 seconds at 42ºC. The cultures were rapidly chilled for 1 minute, mixed with 0.9ml of LB broth and incubated at

To 2 ml of fresh overnight culture of recipient strain, 108 pfu equivalent of phage lysate was added and incubated at 37ºC without shaking for 30 minutes to facilitate phage adsorption. The unadsorbed phage particles were removed by centrifugation at 6000 rpm for 5 minutes and the pellet ofbacterial cells was resuspended in 5 ml of LB broth containing 20 mM sodium citrate to prevent further phage adsorption. This was incubated for 25-60 minutes at desired temperaturewithout shaking to allow the phenotypic expression of the antibiotic resistance gene. The mixture was then centrifuged and the pellet was resuspended in 300 μl of 0.1M citrate buffer. 100 μl aliquots were spreadon appropriate antibiotic containing plates supplemented with 2.5 mM sodium citrate. A control tube without addition of P1 lysate was also processed in the same way. In the case of selection of nutritional requirement, the infection mixture was centrifuged, resuspended in 300 μl of 0.1M citrate buffer and plated without phenotypic expression

10–6)were mixed with 0.1 ml of fresh culture grown in Z-broth. After 30 min of adsorption at 37ºC without shaking, each mixture was added on a soft agar overlay of Z-agar plates and incubated overnight at 37ºC. The phage titrewas calculated from the number of plaques obtained on the plates as follows: Phage titre(pfu) per ml = No. of plaques ×dilution factor ×1000/vol.of lysate added (in μl)

0.3 ml of overnight culture of the donor strain in Z-broth was mixed with 107plaque forming units (pfu) of a stock P1 phage lysate prepared on strain MG1655. Adsorption was allowed to occur at 37ºC for 30 minutes and the lysate was prepared by broth method. To 0.3 ml of infection mixture, 8-10 ml of Z-broth was added and incubated at 37ºC with slow shakinguntil the visible lysis of the culture occurred (in 4-6 hours). The lysate was treated with 0.2ml of chloroform, centrifuged and the clear lysate wasstored at 4ºC with chloroform.Quantitation of Plaque forming units (pfu)To quantitate the titreof P1 lysate preparation, titration was done using P1 phage sensitive indicator strain such as MG1655. 100 μleach of dilution of phage (typically 10–5,