Friday, March 29, 2019
Growth Kinetics of Microorganisms in a Shake Flask
Growth Kinetics of Micro existences in a Shake FlaskAbstractThis essay is carried step to the fore to study the growing dynamics of little-organisms in vex flaskfulfulful. E.coli is grown in a LB broth medium and cosmos fermented for 24 moments. Through aside the upheaval, the boothular telephoneular telephone goal is interpreted out for every 3 hours and protein test, glucose test and cell modify weight argon universe performed. As for the optical density analytic thinking, the absorbance interpret from the spectrophotometer is taken while for the glucose test, the reading of glucose level is taken from the YSI 2700 Select bio chemical Analyzer or send away also macrocosm performed by development DNS reagent and the absorbance value is taken. These absorbance values exit then being comp ared with the standard coil to get the glucose submergence wrong the agitate flask at cross quantify. The cell ironic weight, in the another(prenominal)wise surpass, is taken after the throng submersion is being dried overnight in the oven. The weight of the viral which contains the biomass before and after the drying process is recorded to get the dry cell weight.For the optical density of the cell, the absorbance value showed an increment which indicating that the cell was growing and result of cell is change magnitude in the shake flask. The glucose ingress, however, cannot be determined as the absorbance values were increase and belittled unevenly and comparison cannot be do with the standard curve as the data for the standard curve are not consistent giving inaccurate curve. Therefore no endpoint can be made about the glucose denseness in the shake flask. Supposedly, as the turn of events of cell increased, the glucose minginess would decrease as the glucose outlay by the cells is increased.The dry cell weight in the other break can be seen that thither is an increment from the beginning of the cultivation until the sixth hour and showed unstable changes until the twenty-fourth hour. Supposedly, as the flake of cell increased in spite of appearance the shake flask, the cell dry weight also should be increased.IntroductionFermentation can be carried out as batch, nonstop and fed-batch processes. In this experiment, the shake flask agitation is being used. Shake flask zymosis is the example of batch fermentation. In shake flask, the horti refinement flask usually Erlenmeyer flask is being used to place and growing the microorganisms. It is the cheapest and easiest right smart to culture microorganism aerobically, in dinky volumes of nutrient broth. It is a small scale equipment which equivalent to stirred tank bioreactor.In order to balk any(prenominal) contamination to the culture, shake flask moldiness be plugged. una uniform plug can be made of cotton-wool, glass wool, polyurethane foam, gauze bandage or synthetic fibrous material. The plug has to prevent airborne microorganism from getting into the medium while at the same term al gloomying part with flow of air into the flask.The cultures are incubated at certain temperature and shaking frequence in an incubator shaker to achieve a required ingathering rate. The shaking agitates the medium and the culture to keep the mixture relatively alike and also to ensure aeration, creating an aerobic condition. In batch culture, there is neither input supplied nor output generated passim the fermentation. The medium culture is initially inoculated with the microorganism. The reaping keeps increasing until at certain extent, the harvest-time is inhibited because of the decreasing substratum immersion and the presence of toxic metabolites.AimsTo study the product kinetics of microorganism in shake flask experimentTo construct a gain curve including lag, log, stationary and finish human bodysTo determine the Monod parametersTheoryShake flask fermentation is one of the examples of batch fermentation. Batch culture is an example of a closed culture system which contains an initial, limited amount of nutrient. The inoculated culture leave behind pass done a number of legs. After an inoculation there is a head during which no growth appears to take place. This occlusive is referred as the lag descriptor and whitethorn be considered as a time of adaptation. In a commercial process, the length of the lag phase should be reduced as much as possible. Following a period during which the cell gradually increases, the cell grows at constant, maximum rate and this period is hit the hayn as the log phase or exponential phase. The exponential phase may be described by the equation downstairs= x -1wherex is the concentration of microbial biomasst is the time, in hours is the circumstantial growth rate, in hour -1on integration, equation (1) gives= 2whereis the skipper biomass concentrationis the biomass concentration after time interval, t hoursDuring the exponential phase, the organism is growing at its maximum specific growth rate, for the prevailing conditions. comparison 2 predicts that growth will continue indefinitely. However, growth results in the manipulation of nutrients and the excretion of microbial products. Thus after a certain time the cell growth rate will decrease until growth ceases. The tip of growth may be due to the depletion of some essential nutrient in the medium when there is limitation in substratum.The decrease in growth rate and the cessation of growth due to the depletion of substratum may be described by the relationship surrounded by and the residual growth-limiting substratum as follows =where= maximum growth rates = residual substrate concentration= substrate utilization constantThe stationary phase in batch culture is the point where the growth rate has declined to zero. In the other word the growth rate is equivalent to the end rate. The cell death is might due to the nutrient limitations due to their incorporation into cells during log -phase growth or a build-up of toxins due to their release of fermentation products also during log-phase growth.The death phase is the result of the inability of the bacteria to carry out further facsimile as condition in the medium become slight and less supportive of cell division. The nutrient is extremely insufficient for the growth of the microorganism. Eventually, the number of viable bacterial cells begins to decline at an exponential rate. Industrial fermentation is usually interrupted at the end of the exponential growth phase or before the death phase begins.Apparatus and materialE.coliLuria Bertani bloodDistilled waterShake flaskCotton-pluggedIncubator shakerCuvettesCentrifugesMicropipetorPipette tips bedded flow70% ethanolLighter and Bunsen burnerGraduated piston chamberSchott bottleDNS reagentProcedures naval division 1 Preparation of inoculated fermentation medium500ml shake flask, bunsen burner, measuring cylinder, LB broth and inoculums are brought into the lamin ar flow. downstairs aseptic technique, 50 ml of media is transferred into 500ml shake flask.Then 6 ml of inoculums is added into the shake flask resulting in final volume of 56ml.The shake flask is plugged with cotton-plugged.The shake flask is swabbed with 70% ethanol.The shake flask is incubated at 350 rpm T=30C 24 hours.Part 2 Sampling for cell dry weight1ml of biomass concentration is taken out.The 1ml biomass concentration is transferred into micro centrifuge tubing. An empty micro centrifuge tube moldiness be weighted first.The hear is then centrifuged for 10 legal proceeding at 10000 rpm.After that, the supernatant of the strain distribution distribution is taken out cautiously without taking out any biomass.The biomass is then left dried internal an oven at 80C for overnight.The dried biomass is then being placed inside a dessicator to let it cool before rapidly weighing on an uninflected balance.Part 3 Glucose analysis1ml of biomass concentration is taken out.The 1m l biomass concentration is transferred into micro centrifuge tube.The sample is then put onto turntable of YSI 2700 Select biochemical Analyzer for direct analysis of glucose concentration.Another mode of glucose analysis is by using DNS reagent.1.5ml of DNS reagent is added into 0.5ml of the biomass sample inside a capped test tubeThe mixture is het up(p) at 90C for 10 minutes to develop the red-brown colour.The heated up mixture is then cooled to the room temperature for 2-3 minutes in a iciness or ice water.The mixture is then being diluted with 10ml of distilled water.The absorbance is study with a spectrophotometer.Part 3 Sampling for absorbance analysis/ optical density2ml of biomass concentration is taken out and being transferred into micro centrifuge tube.The spectrophotometer is calibrated to zero by blank consisting of 2ml LB Broth.The biomass concentration is then being transferred into a cuvette and optical density measurement is taken with wavelength set at 600nm.M ore absorbance office higher number of cell.Part 4 The preparation of glucose standard curveThe 20g/L, 40g/L, 60g/L, 80g/L and 100g/L of glucose concentration is prepared by weighing the suitable amount of glucose and diluted with 10ml of distilled water.1.5ml of DNS reagent is added with 0.5ml of the glucose sample inside a capped test tubeThe mixture is heated at 90C for 10 minutes to develop the red-brown colour.The heated mixture is then cooled to the room temperature for 2-3 minutes in a cold or ice water.The mixture is then being diluted with 10ml of distilled water.The absorbance is checked with a spectrophotometerDiscussionsThis experiment is carried out to study the kinetic growth of microorganism. E.coli is selected as the cell and being cultivated inside a shake flask. The growth of microorganism in shake flask is a simple regularity of fermentation. The nutrients for the microorganism are being supplied by the media which contain the carbon sources. The flask is shaken during the cultivation to mix the cell and the media increase the homogeneity between these two and also to provide aeration for the cells. The culture is gone through the fermentation process for 24 hours. Within that period, the biomass/cell sample is taken out for every 3 hours to analyze the concentration of the cell (g/L), the cell dry weight and the glucose concentration.In order to analyze the concentration of the cell inside the flask, absorbance reading for the optical density is taken from the spectrophotometer. The higher the absorbance reading means higher number of cell presence inside the flask at a particular time. As for this experiment, the absorbance reading is increase from the beginning of the experiment until the 21st hour and decrease slightly at the 24th hour. It can be explained that the number of cell increase throughout the cultivation indicating that the cell is growing. In the other hand, the decrease in cell number in 24th hour indicating that the cell growth has r to each one its deceleration phase where the growth of the cell is started to slow down. The decelerating growth phase is where the culture is in a pass(a) state. During this stage there are feed/ support mechanisms that regulate the bacterial enzymes involved in key metabolic steps to enable the bacteria to withstand starvation. There is much turnover of protein for the culture to cope with this period of low substrate availability. In cell growth, the cell will go through several phases like lag, exponential, deceleration, stationary and death phase.In cell cultivation, the cells themselves need food or carbon sources like glucose for growth. In batch fermentation for example in this experiment, the glucose can be the limiting factor for the cell growth or we called it as substrate limiting growth. For this condition, the Monod equation can be used to predict the growth rate and the cell concentration inside the shake flask. In addition, the glucose concentration ca n be known by testing the cell sample into the glucose analyzer and the direct glucose concentration can be obtained. In other way, the glucose concentration is also being obtained by mixing the sample with DNS reagent. The DNS reagent will be reduced to 3-amino,5-nitrosalicylic acid in the presence of free carboxylic group (glucose) and absorbance reading can be taken through the spectrophotometer.As for this experiment, the glucose test showed no pattern of changes in absorbance values. These values increase and decrease unevenly. This might be due to some mistakes occurred during the glucose test where the volume of sample and DNS reagent that need to be mixed is incorrectly taken. This has affected the accuracy of the absorbance reading. From the absorbance reading, the concentration of the glucose can be obtained by referring to the glucose standard curve. The glucose concentration should be reduced as the number of cell inside the flask is increased. This is because as the nu mber of organism increases, nutrients are consumed and becoming lesser. However, this cannot be shown from the results obtained due to some mistakes occurred throughout the experiment.Another analysis that can be performed to analyze the cell sample is by taking the dry weight of the cell. In this rule, the cell is being taken out from cultivation flask and transferred into viral tube. The tube is the being centrifuged to separate the supernatant with the cell. The remained cell is then being dried inside an oven for 24 hours. The dry cell weight is finally taken to know the weight of the cell that present at particular time during the cultivation. In this experiment, the cell dry weight is increased from 0th hour until 6th hour and gradually decreased from the 9th hour to 12th hour and increased until the 24th hour. The cell dry weight should increase when the number of cell increased inside the shake flask.ConclusionsAt the end of this experiment, microorganism is suitable to be fermented inside a shake flask and it is a simple method to investigate the growth kinetics of the microorganism. Knowledge of microbial growth kinetics is essential to determine when to harvest the culture for different purposes. For a growth-linked product, it is suitable to harvest the culture at the late exponential growth phase. On the other hand, for a non-growth-linked product, it would be desirable to harvest the culture at the stationary growth phase.As microorganism will go through several phases in their growth, several analyses on the cell need to be done to know the growth kinetics of the cell and the duration for each phase. This includes the cell concentration, glucose concentration and also the cell dry weight analyses. This method can be done in the laboratory before the fermentation or the cultivation of microbes in large scale is performed. Growth kinetics deals with the rate of cell growth and how it is affected by various chemical and physical conditions. During the course of growth, the cells is continuously changing and adapting itself in the media environment, which is also continuously changing in physical and chemical conditions.In conclusion, the microbial culture in batch culture system (shake flask system) goes through a lag phase, exponential growth phase, decelerating growth phase, stationary phase and sometimes the death phase depends on the end product desired. The substrate concentration in the culture medium and growth parameters, much(prenominal) as glucose concentration changes correspondingly throughout the growth phases. Thus, the physiology of the microorganisms is always in a transient stage, subjected to a continually changing culture conditions. Consequently, product formation is contain to a certain period of cultivation, for example antibiotics would only be produced in the decelerating and stationary growth phases.The batch culture system is still widely used in certain industrial processes for example brewery industry because of its diffused management of feed stocks. These advantages allow the use of unskilled labour and low risk of financial loss. Low level of microbial contamination in fermented products is at time tolerable, as long as the microbial contaminants are not pathogenic and do not alter the desired properties of the product, such as taste, colour and texture.RecommendationsAseptic technique must(prenominal) be happy when handling biomass concentration to avoid any contamination.Cuvette must be wiped cleanly to prevent any scratch that would affect the spectrophotometer reading during protein test.This experiment must be carried out under the laminar flow to prevent any contamination to the culture.The supernatant of cell concentration should be taken out carefully without any taking out of the biomass.The cap of the viral must be opened to fasten the drying process of the biomass in the oven.Wash hand after handling the culture.Disinfect the work area with 70% inebria nt before handling the culture.Dispose of all contaminated materials in grant containers.