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Cultural systems

The amount of land required varies as well, not only as a function of the amount of production that is anticipated, but also on the type of culture system that is used. It may take several hectares of static culture ponds to produce the same biomass of animals as one modest size raceway through which large volumes of water are constantly flowed. Constmction costs vary from one location to another. Local labor and fuel costs must be factored into the equation. The experience of contractors in building aquaculture facihties is another factor to be considered. [Pg.12]

The need for redundancy in the culture system needs to be assessed. Failure of a well pump that brings up water to supply a static pond system may not be a serious problem in countries where new pumps can be purchased in a nearby town. However, it can be disastrous in developing countries where new pumps and pump parts are often not available, but must be ordered from another country. Several weeks or months may pass before the situation can be remedied unless the culturist maintains a selection of spares. [Pg.12]

Commercial-scale operations are conducted in batch, fed-batch, or continuous culture systems. Fermentation vessels include the conventional baffled aerated tank, with or without impeller agitation, and the ak-lift tower fermentors in which ak is sparged into an annular space between the... [Pg.465]

Alternatively, some subunit viral vaccines can be generated by rDNA techniques and expressed in a continuous ceU line or insect ceUs. Recent advances in bioreactor design and operation have improved the successful production of IPV in large-scale bioreactors. However, roUer bottles or flasks are stiU used for most current vaccine production. Development of insect ceU culture will allow for very large-scale Hquid suspension culture (143). Several vaccine candidates such as gpl60 for HIV and gD protein for herpes have been demonstrated in the insect ceU culture system. However, no vaccine has been approved for human use. [Pg.361]

Continuous processes have lower labor costs but have higher failure risk. Batch processes can be started back up in a shorter period of time than can a complex continuous process. Batch processes are easier to take through the regulatory process than are continuous processes. Thus batch processes are often chosen for mammalian ceU culture systems, even though continuous processes can offer significant cost advantages. CeU culture costs constitute only a smaU (10—30%) fraction of the overaU cost of making a product. [Pg.234]

Bio-Tower An attached culture system. A tower filled with a media similar to rachet or plastic rings in which air and water are forced up a counterflow movement in the tower. [Pg.608]

False. Continuous culture systems are more difficult to operate than batch cultures. Medium is continuously added and withdrawn, making the process more prone to contamination. Maintenance cannot be carried out during lengthy culture runs, making the equipment more prone to breakdown. Batch cultures do not suffer such drawbacks. [Pg.91]

Preliminary trials showed that MethylophUus methylotrophus was a suitable source of feed. Changes in culture system, operation, mode of recovery and drying did not adversely affect this. The development team was confident that the pilot-scale and production-scale facilities could be developed effectively. [Pg.93]

Batch fermentation is the most widely used method of amino add production. Here the fermentation is a dosed culture system which contains an initial, limited amount of nutrient. After the seed inoculum has been introduced the cells start to grow at the expense of the nutrients that are available. A short adaptation time is usually necessary (lag phase) before cells enter the logarithmic growth phase (exponential phase). Nutrients soon become limited and they enter the stationary phase in which growth has (almost) ceased. In amino add fermentations, production of the amino add normally starts in the early logarithmic phase and continues through the stationary phase. [Pg.245]

Sterile conditions must be maintained for pure culture system. [Pg.143]

Fibroblast locomotion has been studied in tissue culture systems and is unexpectedly complex. Initially when fibroblasts are plated, they are rounded and... [Pg.26]

Historically, the development of animal cell culture systems has been dependent upon the development of new types of tissue culture media. Mouse L cells and HeLa cells were developed using a balanced salt solution supplemented with blood plasma, an embryonic tissue extract, and/or serum. In 1955 Eagle developed a nutritionally defined medium, containing all of the essential amino acids, vitamins, cofactors, carbohydrates, salts, and small amounts of dialyzed serum (Table 1). He demonstrated that this minimal essential medium (MEM) supported the long-term growth of mouse L and HeLa ceils. Eagle s MEM was so well defined that the omission of a single essential nutrient eventually resulted in the death of these animal cells in culture. [Pg.471]

The use of protoplasts in studies of stress physiology and biochemistry expands the advantages of cell culture systems discussed in the preceding sections. Additional applications are related to the fusion of protoplasts. Intraspecifie and interspecific protoplast fusion greatly enhance genetic variability of the fused protoplasts (Kumar Cocking, 1987). The resulting somatic hybrids provide cells which can be used for selection of specific traits (e.g. environmental stress tolerance) provided by one or both donor cells and for basic studies on cytoplasmic and nuclear inheritance of desired characteristics. [Pg.190]

Soule et al. [141] constructed a sparged, concentric cylinder bioreactor for the cultivation of suspensions of Pirus malus. Growth was reduced under all rotational conditions. Sun and Linden [106] employed a rotating wall vessel (Rotary Cell Culture System, Synthecon, Houston, TX, USA) to cultivate suspensions of Taxus cuspidata under laminar flow conditions. Shear rates were... [Pg.160]

In the interdisciplinary field of biophysics and biotechnology, the bioeffects of electric field have received considerable interest for both fundamental studies on these interaction mechanisms and potential application. However, the effects of pulsed electric field (PEF) on secondary metabolism in plant cell cultures and fermentation processes have been unknown. Therefore, it would be very interesting to find out whether PEF could be used as a new tool for stimulating secondary metabolism in plant cell cultures for potential application to the value-added plant-specific secondary metabolite production. Furthermore, if the PEF permeabilization and elicitation are discovered in a cell culture system, the combination of... [Pg.91]

The long incubation times of many human virus diseases indicate that they replicate slowly in host cells. In tissue culture systems it has been shown that most human viruses take from 4 to 24 hours to complete a single replication cycle, contrasting with the 30 or so minutes for many bacterial viruses. [Pg.68]

The antioxidant property of ferulic acid and related compounds from rice bran was reported by Kikuzaki et al, (2002). Their results indicated that these compounds elicit their antioxidant function through radical scavenging activity and their affinity with lipid substrates. Another recent study reported by Butterfield et al, (2002) demonstrated that ferulic acid offers antioxidant protection against hydroxyl and peroxyl radical oxidation in synaptosomal and neuronal cell culture systems in vitro. The effect of ferulic acid on blood pressure (BP) was investigated in spontaneously hypertensive rats (SHR). After oral administration of ferulic acid the systolic blood pressure (SBP) decreased in a dose-dependent manner. There was a significant correlation between plasma ferulic acid and changes in the SBP of the tail artery, suggesting... [Pg.361]

BUTTERFIELD D A, MARINA A, JAROSLAW K, ANTONIO s (2002) FeruUc add antioxidant protection against hydroxyl and peroxyl radical oxidation in synaptosomal and neuronal cell culture systems in vitro Structure activity studies. JNutri Biochem, 13(5) 273-81. [Pg.371]

In this in vitro system, the presence of serum in cell culture medium is not necessary, but the type of transwell is important (the total amount of H-triglycerides secreted was two-fold higher when using 3 pm versus 1 pm pore size transwells), and oleic acid supplementation is required for the formation and secretion of CMs as well as the transport of 3-carotene through Caco-2 cells. Finally, the presence of Tween 40 does not affect CM synthesis and secretion in this in vitro cell culture system. Thus, CMs secreted by Caco-2 cells were characterized as particles rich in newly synthesized H-triglycerides (90% of total secreted) containing apolipoprotein B (30% of total secreted) and H-phospholipids (20% of total secreted) and with an average diameter of 60 nm. These characteristics are close to those of CMs secreted in vivo by enterocytes. ... [Pg.153]

In this model, no attempt is made to reproduce the in vivo physiochemical conditions occurring in the lumen of the human small intestine during digestion. This cell culture model only provides information about the intestinal absorption and metabolism processes of the compound. Using this cell culture system in con-... [Pg.154]


See other pages where Cultural systems is mentioned: [Pg.15]    [Pg.15]    [Pg.16]    [Pg.19]    [Pg.22]    [Pg.464]    [Pg.466]    [Pg.229]    [Pg.232]    [Pg.233]    [Pg.2131]    [Pg.91]    [Pg.91]    [Pg.91]    [Pg.99]    [Pg.15]    [Pg.32]    [Pg.157]    [Pg.482]    [Pg.7]    [Pg.170]    [Pg.182]    [Pg.182]    [Pg.281]    [Pg.256]    [Pg.91]    [Pg.157]    [Pg.39]    [Pg.69]    [Pg.153]   
See also in sourсe #XX -- [ Pg.91 , Pg.231 ]




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Animal cell culture systems

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Batch culture systems

Bioreactors Small-scale culture systems

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Cell Retention Systems in Perfusion Culture

Cell culture model system

Cell culture systems

Cell culture systems, suppression

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Culture systems

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Culture systems membrane (miniPerm

Culture systems perfusion (high cell density

Culture systems stationary cultures

Culture systems stirred cultures

Culture systems, comparison

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Dynamic culture systems

Economic, social, political, cultural, environmental systems

Electrospun cell-culture systems

Enzyme systems, plant cell cultures

Eukaryotic culture systems

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Human whole blood culture system

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Mammalian cell culture systems

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Mammalian cell culture systems microcarriers

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Organizational culture system

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Perfusion culture systems

Prokaryotic culture systems

Purification culture systems

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Safety management systems culture

Specialized (scale-up) culture systems

Three-dimensional Cell Culture Systems

Tissue culture selection technology system

Tissue culture systems

Total Safety Culture systems approach

Tumor cells culture systems

Xenobiotic-metabolizing cultured cells expression systems

Xenobiotic-metabolizing cultured cells system development

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