Research Journal of Recent Sciences ______ ______________________________ ______ ___ __ _ ISSN 2277 - 2502 Vol. 1( ISC - 2011 ), 33 - 40 (201 2 ) Res.J. Recent .Sci. International Science Congress Association 33 Some growth studies on hyper EPS producing synechococcus spp. From different I ndustrial and coastal regions of Gujarat, India Sukhadia H., Bhatt H., D ave M. and Sharma S. Singhania University , P acheri B ari, J hunjhunu, R ajasthan, INDIA Available online at: www.isca.in (Received 1 9 th November 2011, revised 1 st January 2012 , accepted 24 th January 2012 ) Abstract Cyanobacteria are simplest form of algae, a representing of plant kingdom. They are widely distributed over land, water and o ften in environments where no other vegetation can exists. They've also distinction of being the oldest known fossils and account a lmost 8% of total population of bacteria in water bodies. Polysaccharides are renewable resources representing an important class of polymeric materials of biotechnological interest, offering a wide variety of potentially useful products to mankind. Extrac ellular polysaccharide of microbial origin have a novel functionality, reproducible physico - chemical properties, stable cost and supply, and so are better alternative to polysaccharides of plant and higher algal origin. Cyanobacteria are better suited than macro algae or higher plants, since they exhibit high growth rate and are more amenable to manipulation of conditions for enhancing growt h or EPS production. Synechococcus spp. was isolated from different coastal and industrial regions of Gujarat and its growth kinetics were studied by using internationally recommended medium at various light intensities and production of the Exopolysaccharides was carried out under controlled growth conditions. Qualitative and quantitative estimations of total carbohydrat es and proteins were carried out using Duboi’s method and Folin - lowrey’s method respectively. Total carbohydrates and proteins concentrations were measured at regular time interval of 5 days and gradual increase in concentration (Ranging from 539 µg/l to 588 µg/l ) o f carbohydrates and (Ranging from 72 µg/l to 109 µg/l ) of proteins were found between 25 to 38 days. SDS - PAGE was carried out for further identification of proteins and two moieties of proteins were found having molecular weight of 65 kDa and 30 kDa respectively. Keywords: Cyanobacteria, s ynechococcus spp., EPS, SDS - PAGE. Introduction Blue - green algae are photosynthetic bacteria, t hey appear like algae and are called ‘Cyanobacteria, Blue - green bacteria or Cyanophyta, Cyanoprokaryotes 1 , 2 . They have the distinction of being the oldest known fossils, more than 3.5 billion years old, cyanob acteria are still around. Cyanobacteria are very small organisms and can be seen under the microscope as a single cell or large accumulation of cells (colonies) or strings of cells (trichomes) 3 . They are group of gram negative, unicellular to multicellular , coccoid, branched to filamentous autotrophic to heterotrophic, psycrophiles to thermophiles, acidophilic to alkalophilic, fresh water to marine and domestic water organisms 4 . Cyanobacteria include unicellular and colonial species 3 . The colonies may form filaments, sheets or even hollow balls. Some filamentous colonies show the ability to differentiate into several different cell types: vegetative cells, the normal, photosynthetic cells that are formed under favorable growing condit ions; akinetes, are the climate - resistant spores that may form when environmental conditions become harsh; and thick - walled heterocysts, which contain the enzyme nitrogenase, vital for nitrogen fixation 5 , 6 . Synechococcus (Greek - 'Synechos'=in succession, ' kokkos'=berry) is a unicellular cyanobacterium that is very wide spread in marine as well as in fresh water environment. Its size varies from 0.8 - 1.5µm. Synechococcus sp, the prokaryotic autotrophic picoplankton of tropical region, are preferentially fou nd in well - lit surface waters where it can be very abundant (1000 to 200000 cells/ml) 2 . We have selected Synechococcus spp of fresh water having little bit higher salt and mineral concentration, significantly found at coastal regions of Gujarat. Polysacch arides that are secreted from cells are known as Exopolysaccharides (EPS). In other words, these molecules are not held in association with the cells as are cell wall polysaccharides 1 , 7 . Instead, these molecules are released from the cells 4 , 12 . Exopolysa ccharides were hydrolyzed by 2M TCA (Tri Chloro Acetic Acid) at 110 0 C for 90 min. sand precipitated by compounds like Cetylpyridinium chloride, Isopropanol, Ethanol, or Methanol to an aqueous solution containing polysaccharide 8 , 9 . Pellets of precipitated polysaccharide can be washed and resuspended in double distilled water, buffers such as Phosphate buffered saline or Tris, or other aqueous solutions 1 , 1 0 . Research Journal of Recent Sciences ______ _ _ ___ ____________________________ ______________ _ ______ ISSN 2277 - 2502 Vol. 1( ISC - 2011 ), 33 - 40 (201 2 ) Res.J.Recent.Sci International Science Congress Association 34 Material and Methods Sea water, fresh water, and sewage water samples are collected from different r egions of Gujarat t able - 1. General techniques for the sampling given by the procedures listed in the recommendation from the Department of Environmental Protection ( DEP): Standard Operating Procedures (SOPs) were followed to collect aqueous Cyanobacterial samples 11 , 7 . Only amber glass bottles were used to collect aqueous samples. Cl ean, proper containers with no defects for samples. There are so many methods available for the sampling of fresh water as well as marine water Cyanobacteria. Among all those techniques we have used three techniques as noted below. Direct scrubbing from the stone with Cyanobacteria l layer: In this method samples are directly scrubbed from the solid surface i.e. rocks and walls by the mean of presterilized scalpel. This technique should be handled with care because it ma y lead to breaking down of algal filaments. After the scrubbing, the cells/filaments are directly collected into the same water sample and immediately used for further procedure ( w ithin 1 - 2 days). Scrubbing from Wall: This technique is the best method for the collection of Cyanobacteria and algae which are float on the surface of water as blooms or scum the wall having moisture 1 2 . In this technique, the algae are directly collected from the wall by scrubbing. And this sample is preserved into fresh water o r Mill Q water (for 1 - 2 days). We have used this technique for sample collection at Junagadh, and Veraval, and Himatnagar. Wat er scum sample : Water scum sample technique is the best method for the collection of Cyanobacteria and algae, having the capacity to formation bloom on to the water surface. With the help of wide mouth polycarbonate bottle or glass bottle collect surface grab sample within the top 5 - 10 cm of the water which is having the Cyanobacterial bloom on its sur face. Samples were not collected by skimming the surface. After samples were collected, with the help of Nicrome wire give loop transfer of the filaments in the cultivation medium. This technique gave promising results then the other which we have used. Th is technique was used for sample collection from Junagadh, Veraval, Amreli, Vadodara and Himatnagar. The organism were grown in various recommended medium described in the Isolation and cultivation. Other methods were also described in isolation and cultiv ation and results. Isolation and Cultivation: Isolation and cultivation were carried out followed by the sampling, for that below mentioned internationally recommended medium. BG - 11 Medium 9 , 6 , 13 , Castenholtz D Medium 4 , 3 , 8 ,1 0 , Gorham’s Medium 5 , 6 , ASN - I Medium 1 1 , 8 , 9 , Bold Basal Medium 1 1 ,1 0 , Among all above listed medium BG - 11 medium gave luxurious growth followed by Castenholtz D medium and Gorham’s medium. Expected growth was not found in ASN - I medium, which is actually designed for the growth of true marine Cyanobacteria . Bold Basal medium gave the difficulty of moisture loss and excessive evaporation hence the last two medium were less frequently utilized. BG - 11 medium was modified further due to constrain of some specific ingredients like Ferric ammonium citrate and antibiotics like Ampicillin (100µg/ml), Streptomycin (40 µg/ml) and antifungal - Chlorohexidine (60 µg/ml) to overcome the contamination of autotrophic bacteria and fungi 9, 8 , 7 . 10% of the inoculum was inoculated in highly sterile condition and the flask was kept in an illuminated shaker Incubator (12/12 hr light dark cycle), 25 o C till desirable cell density is at tained. Some requires long period of 30 days for attaining adequate growth. Table - 2 [f igure 1 - 6] shows so me of the isolates. Pure culture of Cyanobacteria l spp. were obtained by sterile transfer of cells from liquid medium to solid medium and solid medium to again liquid medium. After considerable growth, microscopy was carried out and structures were confirmed with the standard ones. To maintain the purity of culture, cultures were transferred to fresh medium, for that four novel techniques were applied a s mentioned below. capillary transfer technique , serial dilution technique , transfer with help of glass beads , transfer with the help of filter paper . EPS Production and Purification: The EPS production was carried out in 2.01 Erlenmeyer flask containing 400 ml of BG - 11 (Modified) Medium, having less amount of Nitrogen source with respect to carbon source 7,9 . For inoculation 10% of inoculums inoculated, to achieve the growth and these flasks were kept at 28°C, humidity was also maintained by using wet fil ter paper. Light/dark cycle of 12/12 hours was necessary for better growth and agitation was also provided by rotary shaker at 60 rpm twice in day. These flasks were incubated at least for 25 days for to achieve adequate growth for EPS production. For the extraction of Extracellular Polysaccharides, cells were separated by centrifugation at 15000 rpm at 15°C for 40 min., an d then supernatant was concentrated 1/4th of its total volume by keeping it in an oven at 60° C for 10 - 12 hours. Thus extracted polys accharides (supernatant) were precipitated by using varieties of organic solvents i.e. Methanol, Isopropyl alcohol, Acetone and Dimethyl sulfoxide. But among all of above Isopropyl alcohol was best suited for precipitation, giving maximum yield with float ing precipitate on the surface precipitated by gradual addition of cold Isopropyl alcohol or Ammonium sulfate to the supernatant and kept at 4 0 C overnight. The precipitates were re - dissolved in buffer or d ouble distillated water. This Research Journal of Recent Sciences ______ _ _ ___ ____________________________ ______________ _ ______ ISSN 2277 - 2502 Vol. 1( ISC - 2011 ), 33 - 40 (201 2 ) Res.J.Recent.Sci International Science Congress Association 35 process was repeated for to purify the polysaccharides. Total carbohydrates and protein content was measured by quantitative analysis of carbohyd rates and protein i.e. Duboi’s m ethod and Folin - Lowrey’s m ethod and further protein moieties were analyzed by SDS - PAGE 13 . Results a nd Discussion Gorham’s medium recommended by ATCC for the better growth of Synechococcus spp. but in our case we won’t be able to get promising results in Gorham’s medium. Comparing the optical density it is observed that, the optical density was 1/3 rd after 17 th day of incubation. The max o ptical d ensity (0.073nm) was observed at 17 th day. Of the two medium D medi um was second best and optimum o ptical Density was observed 0.16. Max growth response observed on modified BG - 11 medium on 17 th day incubatio n which is 0.178 g raph - 1. This data proves that BG - 11( m odified) m edium gave better growth compare to others and so it was selected for further studies. We have grown Synechococcus spp. in different growth medium, among all medium BG - 11 gives maximum growth . So for further optimization of growth of Synechococcus spp. we were tried to grow Synechococcus spp. under different light intensities and study their effects on the growth 3 , 5 . For providing sun light the inoculated flasks were kept on the corridor were bright direct sun light was achieved. Flasks were kept at 8’oclock in the morning and taken out at 6’oclock, and then dark cycle was provided by keeping the system in dark. During the study in one of the experiment on Synechococcus Spp. we have used following various lights intensities for growth studies for 25 days. Sunlight, Red light: 650 nm, b lue light: 475 nm, g reen light: 510 nm. Table - 1 Sampling sites Sample City Location Observed spp. A Junagadh Jadeshwar Lake Sudarshan Lake Ocillatoria spp., Cyanothacea spp., Spirogyra spp, Anabaena spp., Ulothrix spp., Chorococcus spp., Synechococcs spp., Lichens. B Amreli Kamnath Lake Thebi River Bank Cyanothacea spp., Spirogyra spp., Diatoms, Chlorococcus spp., Microcystis spp., Anacystis spp., Lichens. C Kutchchh Hamitsar Lake Anabeana spp., Ulothrix spp., Chlorella spp. D Rajkot Shaper Aaji Dem - II Nyari Dem Municipal Waste Water Treatment Plant, Madhapar Gleocapsa spp., Spirogyra spp., Lichens, Microcystis spp., Diatoms (Nitzia spp.), Chlorococcus spp. E Himatnagar Hathmati River Bank Volvox spp., Spirogyra spp., Microcystis spp., Clamidomonas Spp., F Bhavnagar Sea - cost Trichodesmium spp., Synechocystis spp., Chlorococcus spp. G Veraval Chaupati (Somnath) Waste Water Nearby Reyon Industry Synechocystis spp., Chorococcus spp., Synechococcs spp. Research Journal of Recent Sciences ______ _ _ ___ ____________________________ ______________ _ ______ ISSN 2277 - 2502 Vol. 1( ISC - 2011 ), 33 - 40 (201 2 ) Res.J.Recent.Sci International Science Congress Association 36 Table - 2 Fig ure 1 - 6 Isolates Figure - 1 Figure - 2 Figure - 3 Synechococcus spp. Chlorococcus spp. Ocillatoria spp. Figure - 4 Figure - 5 Figure - 6 Spirogyra spp. Diatoms (Unidentified) Nichtia? Gleocapsa spp . Research Journal of Recent Sciences ______ _ _ ___ ____________________________ ______________ _ ______ ISSN 2277 - 2502 Vol. 1( ISC - 2011 ), 33 - 40 (201 2 ) Res.J.Recent.Sci International Science Congress Association 37 Graph - 1 Comparative Growth Curve studies of Synechococcus spp . Graph - 2 Effect of Various Light Intensities on t he Growth of Synechococcus Spp . in BG - 11 Medium 0.023 0.033 0.045 0.061 0.072 0.088 0.099 0.108 0.115 0.128 0.137 0.146 0.156 0.163 0.172 0.175 0.178 0.174 0.174 0.171 0.171 0.023 0.04 0.049 0.06 0.071 0.083 0.094 0.102 0.109 0.112 0.121 0.132 0.143 0.15 0.15 0.161 0.161 0.161 0.159 0.155 0.155 0.026 0.026 0.028 0.031 0.035 0.039 0.041 0.042 0.042 0.044 0.046 0.049 0.048 0.049 0.056 0.061 0.073 0.073 0.072 0.073 0.074 0 0.02 0.04 0.06 0.08 0.1 0.12 0.14 0.16 0.18 0.2 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 O.D. at 420 nm Time in Days O.D of Synechococcus in BG - II medium OD of Synechococcus in D medium OD of Synechococuus in Gorhan's medium 0.0232 0.039 0.061 0.079 0.083 0.0234 0.041 0.068 0.088 0.093 0.0212 0.073 0.092 0.115 0.132 0.023 0.0843 0.121 0.138 0.155 0 0.02 0.04 0.06 0.08 0.1 0.12 0.14 0.16 0.18 5 10 15 20 25 O.D. at 420 nm Time in Days green blue red sun Research Journal of Recent Sciences ______ _ _ ___ ____________________________ ______________ _ ______ ISSN 2277 - 2502 Vol. 1( ISC - 2011 ), 33 - 40 (201 2 ) Res.J.Recent.Sci International Science Congress Association 38 Graph - 3 Total Carbohydrate Estimation by Duboi's Method Graph - 4 Total Protein Estimation by Folin - Lowrey's Method. 539 569 581 588 510 520 530 540 550 560 570 580 590 600 25 30 35 38 Total Carbohydrates Conc. in ug/l Time in Days 72 81 103 109 0 20 40 60 80 100 120 25 30 35 38 Total ProteinConc. in ug/l Time in Days Research Journal of Recent Sciences ______ _ _ ___ ____________________________ ______________ _ ______ ISSN 2277 - 2502 Vol. 1( ISC - 2011 ), 33 - 40 (201 2 ) Res.J.Recent.Sci International Science Congress Association 39 Figure - 7 SDS – PAGE The graphical representation g raph - 2 proves that, the Synechococcus spp. shows maximum growth in presence of Sun light as compared to other lights i.e. b lue, r ed, and g reen. Hence we have confirmed that, Sun light is necessary for maximum growth while the second most promising growth is observed in presence o f Red light. Under optimum growth condition b lue light also support the growth but here the lag phase is longer than the r ed light. A dead slow growth is observed in presence of g reen light in other words, Green light partially support the growth. Total s ugar and Proteins content of the EPSs were calculated by using Duboi’s method and Folin - lowrey’s method. By performing its qualitative analysis of EPS sample by on the basis of different tests we found reducing and non - reducing sugar present in the EPS sam ple. And on the basis of different references we conclud e that these were sugars like, g lucose, m annose, xylose and ribose present. Total carbohydrates and proteins concentrations were measured at regular time interval of 5 days and grad ual increase in co ncentration (r anging from 539 µg/l to 588 µg/l ) of carbohydrates and (Ranging from 72 µg/l to 109 µg/l ) of proteins wer e found between 25 to 38 days g raph - 3 & 4. SDS - PAGE was carried out for further identification of proteins and two moieties of prote ins were found having molecular weight of 65 kDa and 30 kDa respectively f ig ure - 7. Conclusion Total sugar and p roteins content of the EPS were calculated by using Duboi’s method and Folin - lowery’s method. By performing its qualitative analysis of EPS sa mple by on the basis of different tests we found reducing and non - reducing sugar present in the EPS sample. And on the basis of different references we conclud e that these were sugars like, g lucose, m annose, xylose and ribose present. The proteins so obtai ned were subjected to SDS - PAGE and the results, the molecular weight of protein which were obtained, were of 65 kDa and 30 kDa respectively . Acknowledgement We are thankful to the Principal and management of Shree M. and N. Virani Science College Rajkot, Gujarat, for allowing us to carry out our research work under the guidance of Dr. H. V. Sukhadia. And we are heartily thankful to Dr. Sahjid and Mr. Rahul for their valuable support. References 1. De philippis R., Margheri M.C., M aterassi R. and Vincenzini M., Potential of unicellular cyanobacteria from saline environments as exopolysaccharide producers. Appl. Environ. Microbiol ogy, 64 :1130 - 1332 (1998) 2. Desikachary T. V. , ‘Cyanophyta’ , Indian council of agriculture Research, New Delhi (1989) 3. Castenholtz R.W. , Phylum BX. Cyanobacteria Oxygenic Photosynthetic Bacteria , In Bergey’s Manual of Systematic Bacteriology. Volume 1 The Archaea and the Deeply Branching and Phototropic Bacteria. 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