Name: agrobacterium-mediated genetic transformation: a method to genetically transform the rice genome via genetically engineered agrobacterium tumefaciens
Uploaded: 2023-04-30T14:56:45.000+00:00
Duration: 2 min 18 s
Description: Source: Xu, D., et al. Agrobacterium-Mediated Genetic Transformation, Transgenic Production, and Its Application for the Study of Male Reproductive ...

agrobacterium-mediated genetic transformation: a method to genetically transform the rice genome via genetically engineered agrobacterium tumefaciens

Agrobacterium-Mediated Genetic Transformation: A Method to Genetically Transform the Rice Genome via Genetically Engineered Agrobacterium tumefaciens

Wipe each inflorescence with a 70% alcohol swab, and let it dry before cutting. Bring the inflorescence to a sterile lab bench, and cut it into small pieces with sterilized scissors. Then, transfer the cuttings to a Petri plate containing NBD2 medium.
Incubate the plate in the dark at 26 degrees Celsius, for 10 to 14 days to induce callus. To perform transformation, transfer a single colony from the YEB plate with selective antibiotics to 5 milliliters of liquid YEB medium containing the same antibiotics, in a 50-milliliter conical sterile test tube. Shake the tube on an orbital shaker at 250 x g and 25 to 28-degree Celsius until bacteria grow to an OD600 of 0.5.
Add 1 milliliter of bacterial suspension to 100 milliliters of YEB medium with the same selective antibiotics, in a 250-milliliter conical flask, and shake the flask on an orbital shaker at 250 x g, and 28-degree Celsius for four hours. Centrifuge the culture at 4,000 x g for 10 minutes at room temperature, to collect the bacteria. Discard the supernatant, and resuspend the pellet with AAM-AS medium, and dilute the suspension to OD600 of 0.4.
After the incubation, collect around 150 healthy, light-yellow, embryogenic calli into a 150-milliliter sterile flask. Add 50 to 75 milliliters of the bacterial cell suspension into the flask, and then add 10 to 25 milliliters of fresh AAM-AS medium, to immerse the calli for 10 to 20 minutes, shaking occasionally.
Pour the bacterial suspension out of the flask carefully, and dry the calli with sterile filter paper. Then, place them on a Petri dish with NBD-AS medium, and cover them with filter paper. Incubate the calli at 25 to 28 degree Celsius in the dark for three days, checking them for bacterial overgrowth.
After three days of co-cultivation, transfer the calli to a sterile Petri dish using filter paper, then, air-dry them for two hours on a clean bench. Ensure that the calli are not adhered to the filter paper, and transfer them to the primary selection medium NBD2.
After two weeks, transfer the calli evenly to a new plate containing fresh selection medium. Then, move the calli to fresh MS medium for differentiation, and the shoot buds to MS medium (with 10 mg/L Hygromycin) to proliferate more shoots.

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1. Rice genetic transformation and plant tissue culture
<ol>
	<li>Callus induction and regeneration 
	NOTE: Use fresh young rice inflorescences as the starting material to induce callus (Figure 1).
	<ol>
		<li>Collect the young inflorescences from the paddy field or green house at meiosis stage, determined by floret length of 1.6-4.8 mm (Figure 1A). Ensure that the rice inflorescences are covered with leaf sheath. Wipe each inflorescence with a 70% alcohol swab and let it dry before cutting.</li>
		<li>Bring the inflorescence to a clean sterile bench. Cut it into small pieces (the smaller the better) with sterilized scissors and then transfer cuttings to a Petri plate containing NBD2 medium (Figure 1B,&#160;Table 1).</li>
		<li>Incubate the plate in the dark at 26 &#176;C for about 10-14 days to induce callus (Figure 2A). 
		NOTE: Use the newly formed callus for&#160;Agrobacterium&#160;infiltration (step 1.2.7) directly or recondition one more time in fresh NBD2 medium to obtain more callus. Transfer the callus into the new NBD2 medium every 8&#8211;10 days.</li>
	</ol>
	</li>
	<li>Transformation and co-cultivation
	<ol>
		<li>Use&#160;A. tumefaciens&#160;bacteria containing the binary plasmid with sgRNA-CAS9 construct for transformation. Store the&#160;A. tumefaciens&#160;strains in YEB medium (Table 1) with 50% glycerol at -80 &#176;C for further use.</li>
		<li>Streak&#160;A. tumefaciens&#160;from a -80 &#176;C glycerol stock to YEB agar medium containing selective antibiotics (Table 1) and grow at 25&#8211;28 &#730;C for 48&#8211;72 h, to allow colonies to appear.</li>
		<li>Inoculate a single colony from the YEB plate with selective antibiotics to 5 mL of liquid YEB medium containing the same selective antibiotics (Table 1), in a 50 mL conical sterile test tube. Shake on an orbital shaker at 250&#160;x&#160;g, at 25&#8211;28 &#176;C until bacteria grow to an OD600&#160;of 0.5.</li>
		<li>Add 1 mL of bacterial suspension to 100 mL of YEB medium (Table 1) with the same selective antibiotics in a 250 mL conical flask and shake on an orbital shaker at 250&#160;x&#160;g, at 28 &#176;C for 4 h.</li>
		<li>Centrifuge at 4,000&#160;x&#160;g&#160;for 10 min at room temperature to collect bacteria. Discard the supernatant.</li>
		<li>Resuspend the bacterial pellet with AAM-AS medium (Table 1) and dilute the suspension to an OD600&#160;= 0.4.&#160;&#160;&#160;&#160; 
		NOTE: The perfect OD of bacterial suspension is critical for efficient transformation. It helps in eliminating excess bacterial growth on the callus.</li>
		<li>Collect around 150 healthy growing light-yellow fragile embryogenic calli from step 1.1.3 into a 150 mL sterile flask. Add 50&#8211;75 mL bacterial cell suspension from step 1.2.6 into the sterile flask, and then add some 10&#8211;25 mL fresh AAM-AS medium to immerse the calli for 10&#8211;20 min, shaking occasionally.</li>
		<li>Pour out the bacterial suspension from the flask carefully and dry the excess bacterial suspension from the callus using sterile filter paper #1 or tissue paper. Then place them on a Petri dish with NBD-AS medium (Table 1) covered with a sterile filter paper #1. Incubate at 25&#8211;28 &#176;C in the dark for 3 days and check for bacterial overgrowth.</li>
	</ol>
	</li>
	<li>Selection for resistant callus
	<ol>
		<li>After 3 days of co-cultivation, transfer the calli to a sterile Petri dish with a sterile filter paper.</li>
		<li>Air-dry the calli for 2 h on a clean bench. Ensure that the callus is not adhered to the filter paper.</li>
		<li>Transfer the calli evenly using sterile tweezer to the primary selection medium NBD2 (with 40 mg/L hygromycin and 250 mg/L timentin) (Table 1). Culture calli for 2 weeks at 25&#8211;28 &#176;C in the dark.</li>
		<li>After 2 weeks, transfer calli evenly to a new plate containing fresh selection medium NBD2 (with 40 mg/L hygromycin and 250 mg/L timentin) (Table 1). Culture the calli for another 2 weeks at 25&#8211;28 &#176;C in the dark.</li>
	</ol>
	</li>
	<li>Callus differentiation
	<ol>
		<li>Transfer callus to fresh MS Medium (with 25 mg/L hygromycin and 150 mg/L timentin) (Table 1). Culture under the light at 25&#8211;28 &#176;C for around 2 weeks.</li>
		<li>Repeat step 1.4.1 one more time.</li>
		<li>Transfer the shoot buds to the new MS medium (with 10 mg/L hygromycin) to proliferate more shoots.</li>
	</ol>
	</li>
</ol>
Table 1: Media compositions for rice transformation. <a href="https://cloudflare.jove.com/files/ftp_upload/61665/Table_1.xlsx" target="_blank">Please click here to download this table.</a>

Source: Xu, D., et al. <a href="https://www.jove.com/v/61665">Agrobacterium-Mediated Genetic Transformation, Transgenic Production, and Its Application for the Study of Male Reproductive Development in Rice.</a> J. Vis. Exp. (2020).
In this video, we demonstrate genetic transformation of the rice genome using an Agrobacterium tumefaciens binary vector. This bacterium facilitates the transfer of a foreign DNA plasmid using Agrobacterium virulence proteins.

<img alt="Figure 1" src="/files/ftp_upload/20991/20991_Figure1.jpg" /> 
Figure 1: Starting materials for inducing callus. (A) Young rice inflorescences at meiosis stage. (B) Dissected young inflorescences growing on the NBD2 medium. Bar = 2 cm in (A).
<img alt="Figure 2" src="/files/ftp_upload/20991/20991_Figure2.jpg" /> 
Figure 2: Procedure for producing transgenic lines by Agroba...

Source: Xu, D., et al. Agrobacterium-Mediated Genetic Transformation, Transgenic Production, and Its Application for the Study of Male Reproductive ...

Agrobacterium tumefaciens, a plant pathogenic bacterium, can be genetically engineered by introducing an artificially prepared Ti plasmid, carrying a gene of interest in its transfer DNA or T-DNA region, and a helper plasmid carrying the virulence or Vir genes for transferring the T-DNA into plant cells.
For Agrobacterium-mediated genetic transformation, begin with a young rice inflorescence and cut it into small pieces. Transfer the cuttings to a growth medium and incubate to facilitate the growth of the cuttings into an undifferentiated cell mass called a callus.
Now, transfer the callus to an Agrobacterium infiltration medium containing acetosyringone - a chemoattractant for Agrobacterium. Next, add a culture of genetically engineered Agrobacterium to the medium and incubate briefly.
The acetosyringone molecules activate the cell receptor protein - VirA - on the Agrobacterium membrane, which further mediates the phosphorylation of a transcriptional activator protein - VirG. Phosphorylated VirG moves toward the helper plasmid and activates the transcription of a cascade of virulence genes, including channel proteins and endonucleases - VirD1 and VirD2.
The channel proteins form a transport channel connecting the bacterial and plant cell, whereas the endonucleases bind to the border sequences in the Ti plasmid and cleave the T-DNA with VirD2, bound at one end. Thereafter, VirD2 directs the entry of T-DNA via the transport channel into the callus cells and facilitates its integration into the rice genome.

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Agrobacterium-Mediated Genetic Transformation: A Method to Genetically Transform the Rice Genome via Genetically Engineered Agrobacterium tumefaciens

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