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1 e is the last step required for stable plant genetic transformation.
2 eria and carries genes for providing DNA for genetic transformation.
3 y, the clpC disruption resulted in decreased genetic transformation.
4 responded to the induction of competence for genetic transformation.
5 initiates the development of competence for genetic transformation.
6 induced during competence and essential for genetic transformation.
7 al for twitching motility and competence for genetic transformation.
8 ar spraying, eliminating the need for stable genetic transformation.
9 ission of mobile genetic elements (MGEs) and genetic transformation.
10 portant soil bacterium widely used for plant genetic transformation.
11 es, many of which are not amenable to stable genetic transformation.
12 cus pneumoniae (pneumococcus) is crucial for genetic transformation.
13 tingly, only 16 late genes are essential for genetic transformation.
14 ng that they have not undergone irreversible genetic transformation.
15 ed by transduction, conjugation, and natural genetic transformation.
16 ormation of nucleocomplexes in vitro and for genetic transformation.
17 and to induce development of competence for genetic transformation.
18 rboring a defined gene mutation generated by genetic transformation.
19 ving plant drought and freezing tolerance by genetic transformation.
20 d into plant cells by Agrobacterium-mediated genetic transformation.
21 or tumorigenesis and, by implication, stable genetic transformation.
22 biolistic delivery or Agrobacterium-mediated genetic transformation.
23 cal processes, including gene regulation and genetic transformation.
24 tivated are those that permit competence for genetic transformation.
25 d a significantly reduced ability to undergo genetic transformation.
26 nd reveal a novel role for the spo0J gene in genetic transformation.
27 type IV pili that are essential for natural genetic transformation.
28 of antimicrobial resistance through natural genetic transformation, a process that is activated thro
31 t on the mechanism of Agrobacterium-mediated genetic transformation and could lead to new methods for
32 ation system is a prerequisite for efficient genetic transformation and functional genomics of crop p
33 and tick-borne disease research in vivo once genetic transformation and gene silencing using RNA inte
35 mportant implications for the application of genetic transformation and other biotechnologies in the
36 s to enhance crop productivity but relies on genetic transformation and plant regeneration, which are
38 has a small genome (240 Mb), is amenable to genetic transformation and shares substantial sequence i
39 d organs of a Populus plant are suitable for genetic transformation and tissue culture regeneration,
42 ocesses in plant species resistant to stable genetic transformation and where mutants are unavailable
44 ckweed including genome sequencing, improved genetic transformation, and the identification of a nove
45 hen pneumococcal cells are not competent for genetic transformation, and thus, unable to degrade extr
46 t organisms as a source of new protocols for genetic transformation, as a unique tool for genomic stu
47 of mutant collections and increasing ease of genetic transformation assists critical examination of f
48 e has been shown to be essential for natural genetic transformation at the level of sequence-specific
49 described Agrobacterium tumefaciens-mediated genetic transformation at the Miami Winter Symposium, le
51 ant cells retained the capability to undergo genetic transformation but, compared to Rx1, with lower
52 tly more susceptible to transient and stable genetic transformation by Agrobacterium, probably becaus
55 g chains, aggregated in culture, had reduced genetic transformation efficiencies, and had a reduced c
57 are potent suppressors of quorum sensing and genetic transformation, even when removed from the mucin
58 myeloma cells that distinguish an intrinsic genetic transformation event and patterns derived from b
61 ally deficient in competence development and genetic transformation have extracellular nuclease activ
62 on, and biotechnological techniques, such as genetic transformation, have also been studied and used
63 ependent effector genes required for natural genetic transformation; however, not all streptococcal s
64 king advantage of recent developments in the genetic transformation in C. trachomatis, we constructed
65 Streptococcus mutans develops competence for genetic transformation in response to regulatory circuit
77 m prevents the development of competence for genetic transformation in Streptococcus pneumoniae throu
78 cifically during competence and required for genetic transformation in Streptococcus pneumoniae, but
94 and stable maintenance of extracellular DNA, genetic transformation, is universally recognized as a m
96 ere we present a draft genome sequence and a genetic transformation method for the marine microalga N
98 ergence of techniques that permit the stable genetic transformation of a number of non-drosophilid in
99 nd demonstrate its involvement in the stable genetic transformation of Arabidopsis plants by Agrobact
104 r, we report a protocol for efficient stable genetic transformation of C. richardii and a closely rel
110 The lack of efficient mechanisms for stable genetic transformation of medically important insects, s
113 rm a strong selectable marker for use in the genetic transformation of non-drosophilid pest insects,
116 a type IV secretion system that mediates the genetic transformation of plant cells by Agrobacterium t
118 Nuclear import of DNA is a central event in genetic transformation of plant cells by Agrobacterium t
120 T-DNA nuclear import is a central event in genetic transformation of plant cells by Agrobacterium.
127 e is located at the N terminus of OsGR3, and genetic transformation of rice with a GR3-GFP fusion con
128 his is the first successful demonstration of genetic transformation of Rickettsia prowazekii and repr
129 in planta method for Agrobacterium-mediated genetic transformation of S. viridis using spike dip.
134 , bioinformatics-based genome comparison and genetic transformation of the fungus to identify AVRFOM2
135 , bioinformatics-based genome comparison and genetic transformation of the fungus to identify AVRFOM2
137 coccus pneumoniae cells become competent for genetic transformation, only a few of the corresponding
138 rough gene expression analyses, grafting and genetic transformation (overexpression and gene editing)
140 described the development of a plasmid-based genetic transformation protocol for Chlamydia trachomati
141 c maps, and molecular markers, combined with genetic transformation protocols and bioinformatics tool
143 e pneumococcal competence system facilitates genetic transformation, spreads antibiotic resistance, a
144 Age in Europe is characterized by social and genetic transformations, starting in the early 3rd mille
145 , this represents the first description of a genetic transformation system for a lepidopteran species
149 tested three components that are critical to genetic transformation systems for insects: promoter act
151 ity genome assembly and a recently developed genetic transformation technique makes A. agrestis an at
152 pid developments in sequencing, imaging, and genetic transformation techniques, have enabled signific
155 nt progress in the use of tissue culture and genetic transformation to alter pathways for the biosynt
156 crine cancer model (termed PARCB), a forward genetic transformation using human prostate basal cells
158 asomal degradation in Agrobacterium-mediated genetic transformation was also evident from inhibition
160 ne accumulation followed by fine mapping and genetic transformation, we identified a Kelch domain-con
162 set of virulence genes and can mediate plant genetic transformation when carrying a T-DNA-containing
163 the cell nucleus is sufficient for transient genetic transformation, whereas its ability to form homo
164 and 21 SigX-dependent proteins required for genetic transformation, yet no pyogenic streptococci are