Acetosyringone (AS) has great influences on Agrobacterium-mediated genetic transformation. In order to improve the transformation frequency of waxy maize, in this study, shoot tips and immature embryo-derived callus...Acetosyringone (AS) has great influences on Agrobacterium-mediated genetic transformation. In order to improve the transformation frequency of waxy maize, in this study, shoot tips and immature embryo-derived callus of Lainongnuo 38 were collected as receptor materials, to compare the effects of pH in suspension medium, addition modes and concentrations of acetosyringone on genetic transformation of waxy maize. Results showed that adding 2 μl of 150 μmol/L AS in the wound with suspension medimn at pH 5.2 can significantly improve the transformation frequency of shoot tips of waxy maize; in genetic transformation of maize callus, adding 5 mg/L AS in infection solution can significantly improve the percentage of resistant callus.展开更多
Solanum lycopersicum‘Heinz 1706’is a pioneer model cultivar for tomato research,whose whole genome sequence valuable for genomics studies is available.Nevertheless,a genetic transformation procedure for this cultiva...Solanum lycopersicum‘Heinz 1706’is a pioneer model cultivar for tomato research,whose whole genome sequence valuable for genomics studies is available.Nevertheless,a genetic transformation procedure for this cultivar has not yet been reported.Meanwhile,various genome editing technologies such as transfection of clustered regularly interspaced short palindromic repeats(CRISPR)/CRISPR-associated(Cas)ribonucleoprotein complexes into cells are in the limelight.Utilizing the Cas9-expressing genotype possessing a reference genome can simplify the verification of an off-target effect,resolve the economic cost of Cas9 endonuclease preparation,and avoid the complex assembly process together with single-guide RNA(sgRNA)in the transfection approach.Thus,this study was designed to generate Cas9-expressing‘Heinz 1706’lines by establishing an Agrobacterium tumefaciens-mediated transformation(ATMT)procedure.Here,we report a rapid and reproducible transformation procedure for‘Heinz 1706’by finetuning various factors:A.tumefaciens strain,pre-culture and co-culture durations,a proper combination of phytohormones at each step,supplementation of acetosyringone,and shooting/rooting method.Particularly,through eluding subculture and simultaneously inducing shoot elongation and rooting from leaf cluster,we achieved a short duration of three months for recovering the transgenic plants expressing Cas9.The presence of the Cas9 gene and its stable expression were confirmed by PCR and qRT-PCR analyses,and the Cas9 gene integrated into the T_(0) plant genome was stably transmitted to T_(1) progeny.Therefore,we anticipate that our procedure appears to ease the conventional ATMT in‘Heinz 1706’,and the created Cas9-expressing‘Heinz 1706’lines are ultimately useful in gene editing via unilateral transfection of sgRNA into the protoplasts.展开更多
[Objectives]The effect of acetosyringone seed soaking on the transformation of maize seed buds was analyzed,so as to improve the genetic transformation efficiency of maize and to provide technical support for transgen...[Objectives]The effect of acetosyringone seed soaking on the transformation of maize seed buds was analyzed,so as to improve the genetic transformation efficiency of maize and to provide technical support for transgenic breeding of maize.[Methods]The seeds of the"Zheng 58"maize inbred line were used as experimental materials.When the seeds were germinated,AS was added to the water at concentrations of 70,140,210,and 280μmol/L,respectively,and the seeds germinated without the addition of AS served as the CK.The Agrobacterium-mediated method was used to transform bud growth points of maize seeds,and green fluorescent protein detection was performed on the young shoots transformed with EGFP(enhanced green fluorescent protein)gene.The effect of soaking seeds with acetosyringone solution on the transformation of maize bud growth points by Agrobacterium was studied according to the detection results.[Results]Soaking seeds in acetosyringone solutions for germination had the effect of inhibiting the germination of maize seeds and inhibiting sprout elongation,and the higher the concentration of acetosyringone,the stronger the inhibition.When the concentration of acetosyringone solution was 280μmol/L,the germination rate of seeds was only 36.2%of the CK,while soaking seeds with 70-140μmol/L acetosyringone solution for germination could not only ensure a higher germination rate of maize seeds,but also significantly increased the transformation efficiency of maize bud growth points.When the seeds were soaked with 70μmol/L acetosyringone solution for germination,the positive rate of transformed maize buds was the highest,reaching 32.1%.[Conclusions]When maize bud growth points were used as the receptor of Agrobacterium transformation,soaking seeds with 70-140μmol/L acetosyringone for germination basically did not affect the germination of seeds,and was beneficial to the activation of Agrobacterium,thereby promoting the transformation.展开更多
So far there is no suitable vector system for the genetic engineering of monocotyledonous plants, especially cereal crops. It is first reported in this paper that Agrobacterium tumefaciens strains T37, A208 and B6 can...So far there is no suitable vector system for the genetic engineering of monocotyledonous plants, especially cereal crops. It is first reported in this paper that Agrobacterium tumefaciens strains T37, A208 and B6 can transform some varieties of Triticum aestivum and Hordeum vulgare to form swellings and tumors. Itis shown in the experiments that phenolic compound acetosyringone may promote the transformation process. In addition, inoculating agrobacteria on appropriate plant tissues is also proved to be the key step in achieving successful transformation. The host range of A. tumefaciens and the possibility of utilizing Ti plasmid as the vector for the gene transfer of cereal crops are discussed.展开更多
Agrobacterium tumefaciens can infect wounded plant cells, transfer a part of its Ti plasmid (T-DNA) into plant genomes and cause crown gall tumors. At present the Ti plasmid of A. tumefaciens is the best vector availa...Agrobacterium tumefaciens can infect wounded plant cells, transfer a part of its Ti plasmid (T-DNA) into plant genomes and cause crown gall tumors. At present the Ti plasmid of A. tumefaciens is the best vector available for the genetic engineering of higher plants.展开更多
基金Supported by National Natural Science Foundation of China(31201218)National Science and Technology Project of "Twelfth Five Year" Plan of China(2011BAD35B01)+3 种基金Taishan Scholars Program of Shandong Province(Crop Cultivation and Breeding)Basic Research Program of Science and Technology Project of Qingdao City[12-1-4-5-(11)-jch]Starting Fund for High-level Personnel of Qingdao Agricultural University(No.630740)Shandong Key Laboratory of Maize Breeding and Cultivation Techniques
文摘Acetosyringone (AS) has great influences on Agrobacterium-mediated genetic transformation. In order to improve the transformation frequency of waxy maize, in this study, shoot tips and immature embryo-derived callus of Lainongnuo 38 were collected as receptor materials, to compare the effects of pH in suspension medium, addition modes and concentrations of acetosyringone on genetic transformation of waxy maize. Results showed that adding 2 μl of 150 μmol/L AS in the wound with suspension medimn at pH 5.2 can significantly improve the transformation frequency of shoot tips of waxy maize; in genetic transformation of maize callus, adding 5 mg/L AS in infection solution can significantly improve the percentage of resistant callus.
文摘Solanum lycopersicum‘Heinz 1706’is a pioneer model cultivar for tomato research,whose whole genome sequence valuable for genomics studies is available.Nevertheless,a genetic transformation procedure for this cultivar has not yet been reported.Meanwhile,various genome editing technologies such as transfection of clustered regularly interspaced short palindromic repeats(CRISPR)/CRISPR-associated(Cas)ribonucleoprotein complexes into cells are in the limelight.Utilizing the Cas9-expressing genotype possessing a reference genome can simplify the verification of an off-target effect,resolve the economic cost of Cas9 endonuclease preparation,and avoid the complex assembly process together with single-guide RNA(sgRNA)in the transfection approach.Thus,this study was designed to generate Cas9-expressing‘Heinz 1706’lines by establishing an Agrobacterium tumefaciens-mediated transformation(ATMT)procedure.Here,we report a rapid and reproducible transformation procedure for‘Heinz 1706’by finetuning various factors:A.tumefaciens strain,pre-culture and co-culture durations,a proper combination of phytohormones at each step,supplementation of acetosyringone,and shooting/rooting method.Particularly,through eluding subculture and simultaneously inducing shoot elongation and rooting from leaf cluster,we achieved a short duration of three months for recovering the transgenic plants expressing Cas9.The presence of the Cas9 gene and its stable expression were confirmed by PCR and qRT-PCR analyses,and the Cas9 gene integrated into the T_(0) plant genome was stably transmitted to T_(1) progeny.Therefore,we anticipate that our procedure appears to ease the conventional ATMT in‘Heinz 1706’,and the created Cas9-expressing‘Heinz 1706’lines are ultimately useful in gene editing via unilateral transfection of sgRNA into the protoplasts.
基金Natural Science Foundation of Hebei Province(C2017301071)"Science and Technology Innovation Project"of Hebei Academy of Agriculture and Forestry Sciences(F18C10002).
文摘[Objectives]The effect of acetosyringone seed soaking on the transformation of maize seed buds was analyzed,so as to improve the genetic transformation efficiency of maize and to provide technical support for transgenic breeding of maize.[Methods]The seeds of the"Zheng 58"maize inbred line were used as experimental materials.When the seeds were germinated,AS was added to the water at concentrations of 70,140,210,and 280μmol/L,respectively,and the seeds germinated without the addition of AS served as the CK.The Agrobacterium-mediated method was used to transform bud growth points of maize seeds,and green fluorescent protein detection was performed on the young shoots transformed with EGFP(enhanced green fluorescent protein)gene.The effect of soaking seeds with acetosyringone solution on the transformation of maize bud growth points by Agrobacterium was studied according to the detection results.[Results]Soaking seeds in acetosyringone solutions for germination had the effect of inhibiting the germination of maize seeds and inhibiting sprout elongation,and the higher the concentration of acetosyringone,the stronger the inhibition.When the concentration of acetosyringone solution was 280μmol/L,the germination rate of seeds was only 36.2%of the CK,while soaking seeds with 70-140μmol/L acetosyringone solution for germination could not only ensure a higher germination rate of maize seeds,but also significantly increased the transformation efficiency of maize bud growth points.When the seeds were soaked with 70μmol/L acetosyringone solution for germination,the positive rate of transformed maize buds was the highest,reaching 32.1%.[Conclusions]When maize bud growth points were used as the receptor of Agrobacterium transformation,soaking seeds with 70-140μmol/L acetosyringone for germination basically did not affect the germination of seeds,and was beneficial to the activation of Agrobacterium,thereby promoting the transformation.
文摘So far there is no suitable vector system for the genetic engineering of monocotyledonous plants, especially cereal crops. It is first reported in this paper that Agrobacterium tumefaciens strains T37, A208 and B6 can transform some varieties of Triticum aestivum and Hordeum vulgare to form swellings and tumors. Itis shown in the experiments that phenolic compound acetosyringone may promote the transformation process. In addition, inoculating agrobacteria on appropriate plant tissues is also proved to be the key step in achieving successful transformation. The host range of A. tumefaciens and the possibility of utilizing Ti plasmid as the vector for the gene transfer of cereal crops are discussed.
文摘Agrobacterium tumefaciens can infect wounded plant cells, transfer a part of its Ti plasmid (T-DNA) into plant genomes and cause crown gall tumors. At present the Ti plasmid of A. tumefaciens is the best vector available for the genetic engineering of higher plants.
