An Efficient Root Transformation System for Recalcitrant Vicia sativa

Common vetch (Vicia sativa) is a multi-purpose legume widely used in pasture and crop rotation systems. Vetch seeds have desirable nutritional characteristics and are often used to feed ruminant animals. Although transcriptomes are available for vetch, problems with genetic transformation and plant regeneration hinder functional gene studies in this legume species. Therefore, the aim of this study was to develop a simple, efficient and rapid hairy root transformation system for common vetch to facilitate functional gene analysis. At first, we infected the hypocotyls of 5-day-old in vitro or in vivo, soil-grown seedlings with Rhizobium rhizogenes K599 using a stabbing method and produced transgenic hairy roots after 24 days at 19 and 50% efficiency, respectively. We later improved the hairy root transformation in vitro by infecting different explants (seedling, hypocotyl-epicotyl, and shoot) with R. rhizogenes. We observed hairy root formation at the highest efficiency in shoot and hypocotyl-epicotyl explants with 100 and 93% efficiency, respectively. In both cases, an average of four hairy roots per explant were obtained, and about 73 and 91% of hairy roots from shoot and hypocotyl-epicotyl, respectively, showed stable expression of a co-transformed marker β-glucuronidase (GUS). In summary, we developed a rapid, highly efficient, hairy root transformation method by using R. rhizogenes on vetch explants, which could facilitate functional gene analysis in common vetch.

Hairy CRISPR: Genome Editing in Plants Using Hairy Root Transformation

CRISPR/Cas-mediated genome editing is a powerful tool of plant functional genomics. Hairy root transformation is a rapid and convenient approach for obtaining transgenic roots. When combined, these techniques represent a fast and effective means of studying gene function. In this review, we outline the current state of the art reached by the combination of these approaches over seven years. Additionally, we discuss the origins of different Agrobacterium rhizogenes strains that are widely used for hairy root transformation; the components of CRISPR/Cas vectors, such as the promoters that drive Cas or gRNA expression, the types of Cas nuclease, and selectable and screenable markers; and the application of CRISPR/Cas genome editing in hairy roots. The modification of the already known vector pKSE401 with the addition of the rice translational enhancer OsMac3 and the gene encoding the fluorescent protein DsRed1 is also described.

Detection of Target Sites Edited in Upland Cotton By The CRISPR/Cas9 System Mediated By Agrobacterium Rhizogenes

Background CRIPSR/Cas9 gene editing has the ability to effectively modify plant genomes. Multiple target sites usually were designed and the effective target sites were selected for editing. However, upland cotton is allotetraploid and is commonly considered as difficult and inefficient to transform. Therefore, it’s important to quickly identify feasibility of the target site. In this study, we use Agrobacterium rhizogenes K599 strain to infect cotton shoot meristem and induce them to grow hairy roots to detect the feasibility of a selected target designed in GhMYB25-like gene. Results We designed a sgRNA within the second exons of GhMYB25-likeA and GhMYB25-likeD and constructed the CRISPR vector. Transient hairy root transformation using A. rhizogenes K599 with four OD600s (0.4, 0.6,0.8, 1.0) was performed in Coker 312 (R15). The results show that A. rhizogenes at OD600 = 0.6–0.8 is the best concentration range for inducing cotton hairy roots. The other three cultivars (TM-1, Lumian 21, Zhongmian 49) were injected using A. rhizogenes K599 with OD600 = 0.6-0.8 and all produced hairy roots. We characterized ten R15 plants with hairy roots and detected different degrees of base deletions and insert at the target site in five R15 plants. Conclusion Overall, our data show A. rhizogenes-mediated transient hairy root transformation offers a rapid and efficient method to detect sgRNA feasibility in cotton.

Measuring information accessibility and predicting response-effects: The validity of response-certainties and response-latencies

Respondents’ reports about the frequency of everyday behavior are often found to differ considerably when either low- or high-frequency response scales are used to record the answers. It has been hypothesized that the susceptibility to this type of response effect is determined by the cognitive accessibility of the respective target information in respondents’ memories. The first aim of the present paper is to test this hypothesis using two alternative, individual level indicators of the cognitive accessibility of information. These measures are the subjects’ self-reported response certainty and the time needed to answer the question under consideration. A second issue is how response certainties and response latencies should be transformed prior to data analysis in order to maximize their predictive power for response effects. Accordingly, the ability of untransformed measures to predict scale effects is compared with that of logarithmic, square-root and reciprocally transformed versions. The empirical results show that untransformed response certainties and response latencies are equally valid predictors of whether and to what extent subjects’ answers are affected by the presentation of response options. A square-root transformation is found to have no effect on both measures, whereas a logarithmic transformation slightly improves the validity of response certainties. In contrast, a reciprocal transformation proves to have a substantially positive effect on both measures and improves their ability to predict the reliability of respondents’ survey reports.

Gas Chromatographic Fingerprint Analysis for the Comparison of Seized Cannabis Samples

Cannabis sativa L. is widely used as recreational illegal drugs. Illicit Cannabis profiling, comparing seized samples, is challenging due to natural Cannabis heterogeneity. The aim of this study was to use GC–FID and GC–MS herbal fingerprints for intra (within)- and inter (between)-location variability evaluation. This study focused on finding an acceptable threshold to link seized samples. Through Pearson correlation-coefficient calculations between intra-location samples, ‘linked’ thresholds were derived using 95% and 99% confidence limits. False negative (FN) and false positive (FP) error rate calculations, aiming at obtaining the lowest possible FP value, were performed for different data pre-treatments. Fingerprint-alignment parameters were optimized using Automated Correlation-Optimized Warping (ACOW) or Design of Experiments (DoE), which presented similar results. Hence, ACOW data, as reference, showed 54% and 65% FP values (95 and 99% confidence, respectively). An additional fourth root normalization pre-treatment provided the best results for both the GC–FID and GC–MS datasets. For GC–FID, which showed the best improved FP error rate, 54 and 65% FP for the reference data decreased to 24 and 32%, respectively, after fourth root transformation. Cross-validation showed FP values similar as the entire calibration set, indicating the representativeness of the thresholds. A noteworthy improvement in discrimination between seized Cannabis samples could be concluded.

Highly efficient Agrobacterium rhizogenes-mediated hairy root transformation for gene functional and gene editing analysis in soybean

Background Agrobacterium-mediated genetic transformation is a widely used and efficient technique for gene functional research in crop breeding and plant biology. While in some plant species, including soybean, genetic transformation is still recalcitrant and time-consuming, hampering the high-throughput functional analysis of soybean genes. Thus we pursue to develop a rapid, simple, and highly efficient hairy root system induced by Agrobacterium rhizogenes (A. rhizogenes) to analyze soybean gene function. Results In this report, a rapid, simple, and highly efficient hairy root transformation system for soybean was described. Only sixteen days were required for the whole workflow and the system was suitable for various soybean genotypes, with an average transformation frequency of 58–64%. Higher transformation frequency was observed when wounded cotyledons from 1-day-germination seeds were inoculated and co-cultivated with A. rhizogenes in 1/2 B5 (Gamborg’ B-5) medium. The addition of herbicide selection to root production medium increased the transformation frequency to 69%. To test the applicability of the hairy root system for gene functional analysis, we evaluated the protein expression and subcellular localization in transformed hairy roots. Transgenic hairy roots exhibited significantly increased GFP fluorescence and appropriate protein subcellular localization. Protein–protein interactions by BiFC (Bimolecular Fluorescent Complimentary) were also explored using the hairy root system. Fluorescence observations showed that protein interactions could be observed in the root cells. Additionally, hairy root transformation allowed soybean target sgRNA screening for CRISPR/Cas9 gene editing. Therefore, the protocol here enables high-throughput functional characterization of candidate genes in soybean. Conclusion A rapid, simple, and highly efficient A. rhizogenes-mediated hairy root transformation system was established for soybean gene functional analysis, including protein expression, subcellular localization, protein–protein interactions and gene editing system evaluation.

Use of the rhizobial type III effector gene nopP to improve Agrobacterium rhizogenes-mediated transformation of Lotus japonicus

Background Protocols for Agrobacterium rhizogenes-mediated hairy root transformation of the model legume Lotus japonicus have been established previously. However, little efforts were made in the past to quantify and improve the transformation efficiency. Here, we asked whether effectors (nodulation outer proteins) of the nodule bacterium Sinorhizobium sp. NGR234 can promote hairy root transformation of L. japonicus. The co-expressed red fluorescent protein DsRed1 was used for visualization of transformed roots and for estimation of the transformation efficiency. Results Strong induction of hairy root formation was observed when A. rhizogenes strain LBA9402 was used for L. japonicus transformation. Expression of the effector gene nopP in L. japonicus roots resulted in a significantly increased transformation efficiency while nopL, nopM, and nopT did not show such an effect. In nopP expressing plants, more than 65% of the formed hairy roots were transgenic as analyzed by red fluorescence emitted by co-transformed DsRed1. A nodulation experiment indicated that nopP expression did not obviously affect the symbiosis between L. japonicus and Mesorhizobium loti. Conclusion We have established a novel protocol for hairy root transformation of L. japonicus. The use of A. rhizogenes LBA9402 carrying a binary vector containing DsRed1 and nopP allowed efficient formation and identification of transgenic roots.

A Root Tip-Specific Expressing Anthocyanin Marker for Direct Identification of Transgenic Tissues by the Naked Eye in Symbiotic Studies

The Agrobacterium rhizogenes hairy root transformation system is widely used in symbiotic studies of model legumes. It typically relies on fluorescent reporters, such as DsRed, for identification of transgenic roots. The MtLAP1 transcription factor has been utilized as a reporter system in Medicago truncatula based on production of anthocyanin pigment. Here, we describe a version of this reporter driven by a root-cap specific promoter for direct observation of anthocyanin accumulation in root tips, which allows the identification of transgenic hairy roots by the naked eye. Results from our analysis suggest that the reporter had no significant effects on nodulation of M. truncatula. This approach, by virtue of its strong and specific expression in root cap cells, greatly reduces false positives and false negatives, and its use of an easily scored visible pigment should allow greater versatility and efficiency in root biology studies.