Biomolecular Engineering Solutions for Renewable Specialty Chemicals. Группа авторов

Biomolecular Engineering Solutions for Renewable Specialty Chemicals - Группа авторов


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called transfection.

       1.2.3.2.2 Electroporation

      An electric current is used to create transient microscopic pores in the recipient host cell membrane allowing rDNA to enter.

       1.2.3.2.3 Microinjection

      Exogenous DNA can also be brought immediately into animal and plant cells without using eukaryotic vectors in the system of microinjection, foreign DNA is directly injected into recipient cells the use of a quality micro syringe under a section contrast microscope to useful resource imaginative and prescient.

       1.2.3.2.4 Biolistics

      An excellent technique that has been developed to introduce foreign DNA into in particular plant cells is by means of using a gene or particle gun. Microscopic particles of gold or tungsten are covered with the DNA of interest and bombarded onto cells with a device just like a particle gun. Subsequently, the time period biolistic is used.

      1.2.4 Selection of Transformants

      The artwork of cloning is to determine the precise transformed cell that consists of the cloning vector with the gene of interest (referred to as a recombinant cell). It is also very important to find the recombinant cells from the culturing transformed petri plate where nonrecombinant (containing the vector without insert DNA) transformed cells are also present. If the final goal is achieved, that means our desired gene of interest is inserted into the vector then it will be called as clone. Direct selection and selection from gene library are the two basic concepts for selection procedures. Direct selection involves designing of experiment in such a way that transformation takes place only for the clones containing specific gene of interest. Selection happens on the plating‐out stage of the transformation where the colonies are grown on agar plates. It is the preferred technique because of the ease and unambiguous in nature. Selection from gene library involves initial “shotgun” cloning test, to produce a clone library representing all or most of the genes present inside the cell, observed through evaluation of each individual clones to identify the correct one.

      1.2.4.1 Direct Selection

      Majority of cloning vectors are designed in such a way that inserting gene of interest in them inactivates the gene already present in the vector. This leads to insertional inactivation of gene. Two of the common examples of insertional inactivation, i.e., direct antibiotic resistance screening and blue white screening are discussed below.

       1.2.4.1.1 Direct Antibiotic Resistance Screening

       1.2.4.1.2 Blue–White Color Screening

      Blue‐white screening is also based on insertional inactivation of a gene giving blue color compound as a visual representation of the result. The gene that plays a key role in this screening is lacZ gene which codes for the enzyme β‐galactosidase is under the control of the inducible lac promoter. lacZ gene is repressed by lac repressor and is induced by IPTG (isopropyl‐β‐D‐thiogalactopyranoside). The enzyme formed can breakdown X‐gal (five‐bromo‐4‐chlore‐3‐indolyl‐β‐D‐galactopyranoside) to give a blue color compound.

      Insertional inactivation of lacZ gene due to insertion of desired gene prevents the formation of the enzyme, breakdown of X‐gal, and hence no blue color is obtained. The cells are plated on agar plates having IPTG, X‐gal, and an antibiotic giving combination of blue and white colonies. The transformed cells with religated vector having functional lacZ gene shows blue color colonies. Whereas the cells with gene of interest and disrupted lacZ gene forms colorless colonies. Further the colorless colonies can be picked and plated again.

      1.2.4.2 Identification of the Clone from a Gene Library

      Screening a positive clone from gene library involves typical techniques such as nucleic acid hybridization, functional screening, and chromosome walking. Nucleic acid hybridization needs preliminary information of both the gene of interest and area of gene to be cloned. Contrary, functional screening entails the information about the vector.

       1.2.4.2.1 Nucleic Acid Hybridization

       1.2.4.2.2 Functional Screening

      If the gene encodes for a product that has a specific role, then the expression library is by means of cloning DNA (cDNA in case of eukaryotes). These libraries are prepared using unique cloning vectors for expression of cloned genes. The prepared library can be used to detect the product or the clones generated by using antibodies or other ligands. These antibodies or ligands binds with the encoded product and clones.

       1.2.4.2.3 Chromosome Walking

      Usually a genomic clone may not be includ all of the sequences for a specific gene so it is required to isolate overlapping clones that protect the genomic segment of interest. This process is known as chromosome walking.


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