Towards improving tsetse fly paratransgenesis: stable colonization of <Emphasis Type="Italic">Glossina morsitans morsitans</Emphasis> with genetically modified <Emphasis Type="Italic">Sodalis</Emphasis>

Background

Tsetse flies (Glossina sp.) refractory to trypanosome infection are currently being explored as potential tools to contribute in the control of human and animal African trypanosomiasis. One approach to disrupt trypanosome transmission by the tsetse fly vector involves the use of paratransgenesis, a technique that aims to reduce vector competence of disease vectors via genetic modification of their microbiota. An important prerequisite for developing paratransgenic tsetse flies is the stable repopulation of tsetse flies and their progeny with its genetically modified Sodalis symbiont without interfering with host fitness.

Results

In this study, we assessed by qPCR analysis the ability of a chromosomally GFP-tagged Sodalis (recSodalis) strain to efficiently colonize various tsetse tissues and its transmission to the next generation of offspring using different introduction approaches. When introduced in the adult stage of the fly via thoracic microinjection, recSodalis is maintained at high densities for at least 21 days. However, no vertical transmission to the offspring was observed. Oral administration of recSodalis did not lead to the colonization of either adult flies or their offspring. Finally, introduction of recSodalis via microinjection of third-instar larvae resulted in stably colonized adult tsetse flies. Moreover, the subsequent generations of offspring were also efficiently colonized with recSodalis. We show that proper colonization of the female reproductive tissues by recSodalis is an important determinant for vertical transmission.

Conclusions

Intralarval microinjection of recSodalis proves to be essential to achieve optimal colonization of flies with genetically modified Sodalis and its subsequent dissemination into the following generations of progeny. This study provides the proof-of-concept that Sodalis can be used to drive expression of exogenous transgenes in Glossina morsitans morsitans colonies representing a valuable contribution to the development of a paratransgenic tsetse fly based control strategy.

     

Gene flow among <Emphasis Type="Italic">Hancornia speciosa</Emphasis> (Apocynaceae) varieties and hybrid fitness

The fate of hybrids and the temporal and spatial dynamics of hybrid zones depend on hybrid fitness in comparison to non-hybrids. We studied cross-pollination among Hancornia speciosa varieties and compared progeny fitness in a nursery to address whether hybrid fitness differed from non-hybrids and whether maternal and paternal taxa contribute differentially to offspring fitness. This species has edible fruit pulp that is used as a raw material for candies, ice cream, and juice by small- and medium-sized enterprises in Central-West and Northeast Brazil. We genotyped 258 adults from a germplasm collection and 320 seeds using seven microsatellite loci to estimate genetic parameters and determine pollen donors. Fitness components, days to shoot, growth rate (mm/day), leaf width (mm), leaf length (mm), stem diameter (mm), and plant height (cm) were analyzed in 200 individuals. Genetic diversity and polymorphism did not differ neither between adults and progeny arrays nor among the four varieties. Genetic differentiation among varieties (F _CT?=?0.019, p?<?0.001) and among populations within varieties (F _SC?=?0.053, p?<?0.001) was significant but low. We detected mating among the four varieties, and no self-pollination was observed in parentage analysis, confirming that H. speciosa is self-incompatible with a high outcrossing rate (t _m?=?0.990, SE?=?0.007). No significant effect of heterosis or exogamic depression was detected for any fitness component, but maternal contribution significantly affected plant height.     

Role of Arabidopsis <Emphasis Type="Italic">ABF1</Emphasis>/<Emphasis Type="Italic">3</Emphasis>/<Emphasis Type="Italic">4</Emphasis> during <Emphasis Type="Italic">det1</Emphasis> germination in salt and osmotic stress conditions

Key message

Arabidopsis det1 mutants exhibit salt and osmotic stress resistant germination. This phenotype requires HY5, ABF1, ABF3, and ABF4.

Abstract

While DE-ETIOLATED 1 (DET1) is well known as a negative regulator of light development, here we describe how det1 mutants also exhibit altered responses to salt and osmotic stress, specifically salt and mannitol resistant germination. LONG HYPOCOTYL 5 (HY5) positively regulates both light and abscisic acid (ABA) signalling. We found that hy5 suppressed the det1 salt and mannitol resistant germination phenotype, thus, det1 stress resistant germination requires HY5. We then queried publically available microarray datasets to identify genes downstream of HY5 that were differentially expressed in det1 mutants. Our analysis revealed that ABA regulated genes, including ABA RESPONSIVE ELEMENT BINDING FACTOR 3 (ABF3), are downregulated in det1 seedlings. We found that ABF3 is induced by salt in wildtype seeds, while homologues ABF4 and ABF1 are repressed, and all three genes are underexpressed in det1 seeds. We then investigated the role of ABF3, ABF4, and ABF1 in det1 phenotypes. Double mutant analysis showed that abf3, abf4, and abf1 all suppress the det1 salt/osmotic stress resistant germination phenotype. In addition, abf1 suppressed det1 rapid water loss and open stomata phenotypes. Thus interactions between ABF genes contribute to det1 salt/osmotic stress response phenotypes.

     

Segregation for fertility and meiotic stability in novel <Emphasis Type="Italic">Brassica</Emphasis> allohexaploids

Key message

Allohexaploid Brassica populations reveal ongoing segregation for fertility, while genotype influences fertility and meiotic stability.

Abstract

Creation of a new Brassica allohexaploid species is of interest for the development of a crop type with increased heterosis and adaptability. At present, no naturally occurring, meiotically stable Brassica allohexaploid exists, with little data available on chromosome behaviour and meiotic control in allohexaploid germplasm. In this study, 100 plants from the cross B. carinata?×?B. rapa (A2 allohexaploid population) and 69 plants from the cross (B. napus?×?B. carinata)?×?B. juncea (H2 allohexaploid population) were assessed for fertility and meiotic behaviour. Estimated pollen viability, self-pollinated seed set, number of seeds on the main shoot, number of pods on the main shoot, seeds per ten pods and plant height were measured for both the A2 and H2 populations and for a set of reference control cultivars. The H2 population had high segregation for pollen viability and meiotic stability, while the A2 population was characterised by low pollen fertility and a high level of chromosome loss. Both populations were taller, but had lower average fertility trait values than the control cultivar samples. The study also characterises fertility and meiotic chromosome behaviour in genotypes and progeny sets in heterozygous allotetraploid Brassica derived lines, and indicates that genotypes of the parents and H1 hybrids are affecting chromosome pairing and fertility phenotypes in the H2 population. The identification and characterisation of factors influencing stability in novel allohexaploid Brassica populations will assist in the development of this as a new crop species for food and agricultural benefit.

     

Identification of candidate genes of QTLs for seed weight in <Emphasis Type="Italic">Brassica napus</Emphasis> through comparative mapping among <Emphasis Type="Italic">Arabidopsis</Emphasis> and <Emphasis Type="Italic">Brassica</Emphasis>species

Background

Map-based cloning of quantitative trait loci (QTLs) in polyploidy crop species remains a challenge due to the complexity of their genome structures. QTLs for seed weight in B. napus have been identified, but information on candidate genes for identified QTLs of this important trait is still rare.

Results

In this study, a whole genome genetic linkage map for B. napus was constructed using simple sequence repeat (SSR) markers that covered a genetic distance of 2,126.4 cM with an average distance of 5.36 cM between markers. A procedure was developed to establish colinearity of SSR loci on B. napus with its two progenitor diploid species B. rapa and B. oleracea through extensive bioinformatics analysis. With the aid of B. rapa and B. oleracea genome sequences, the 421 homologous colinear loci deduced from the SSR loci of B. napus were shown to correspond to 398 homologous loci in Arabidopsis thaliana. Through comparative mapping of Arabidopsis and the three Brassica species, 227 homologous genes for seed size/weight were mapped on the B. napus genetic map, establishing the genetic bases for the important agronomic trait in this amphidiploid species. Furthermore, 12 candidate genes underlying 8 QTLs for seed weight were identified, and a gene-specific marker for BnAP2 was developed through molecular cloning using the seed weight/size gene distribution map in B. napus.

Conclusions

Our study showed that it is feasible to identify candidate genes of QTLs using a SSR-based B. napus genetic map through comparative mapping among Arabidopsis and B. napus and its two progenitor species B. rapa and B. oleracea. Identification of candidate genes for seed weight in amphidiploid B. napus will accelerate the process of isolating the mapped QTLs for this important trait, and this approach may be useful for QTL identification of other traits of agronomic significance.

     

Genome-wide characterization and stress-responsive expression profiling of <Emphasis Type="Italic">MCM</Emphasis> genes in <Emphasis Type="Italic">Brassica oleracea</Emphasis> and <Emphasis Type="Italic">Brassica rapa</Emphasis>

The Minichromosome maintenance protein [MCM (2-7)] complex is associated with helicase activity for replication fork formation during DNA replication. We identified and characterized each 12 putative MCM genes from Brassica oleracea and Brassica rapa. MCM genes were classified into nine groups according to their evolutionary relationships. A high number of syntenic regions were present on chromosomes C03 and A03 in B. oleracea and B. rapa, respectively, compared to the other chromosomes. Expression analysis showed that most of the MCM(2-7) helicase-subunit genes and their coregulating MCM genes were upregulated during hydroxyurea (HU) induced stress in B. oleracea. In B. rapa, MCM(2-7) helicase genes BrMCM2_2, BrMCM7_1, BrMCM7_2 and their co-regulating genes were upregulated during replication stress. During cold stress, BoMCM6 in B. oleracea and BrMCM5 in B. rapa were remarkably upregulated. During salt stress, BoMCM6_2, BoMCM7_1, BoMCM8, BoMCM9, and BoMCM10 were markedly upregulated in B. oleracea. Hence, our study identified the candidate MCM family genes those possess abiotic stress-responsive behavior and DNA replication stress tolerance. As the first genome-wide analysis of MCM genes in B. oleracea and B. rapa, this work provides a foundation to develop stress responsive plants. Further functional and molecular studies on MCM genes will be helpful to enhance stress tolerance in plants.     

Genetic mapping and salt tolerance of a novel <Emphasis Type="Italic">D1</Emphasis>-allelic mutant of rice (<Emphasis Type="Italic">Oryza sativa</Emphasis> L.)

Plant height and grain shape are important traits that may affect yield in rice, and they therefore have enormous importance in breeding. A dwarf small-grain mutant (S525) was identified among progeny of the Indica rice restorer line ‘Xida 1B’ (wild type) raised from seeds treated with ethyl methanesulfonate. The dwarf and small-grain phenotypes were stably inherited after multi-generation selfing. Field-grown mutant plants showed the phenotypes of dwarfism, broad leaves, and small round grains. Genetic mapping and sequencing confirmed that S525 was a novel d1-allelic mutant. A single-base transition (G to A) in the functional dwarfism gene D1 at the conjunction site of the 11th intron caused excision or duplication of the 11th exon in the mRNA and resulted in translation of a defective G_α protein. The S525 showed enhanced salt tolerance compared with the wild type (WT), and the expression of genes associated with salt tolerance quantitatively increased in response to treatment with 200 mM NaCl. The S525 may be useful for future investigation of G_α functions and in the breeding of new dwarf rice cultivars.     

The <Emphasis Type="Italic">Adh</Emphasis> locus and adaptation of <Emphasis Type="Italic">cn</Emphasis> and <Emphasis Type="Italic">vg</Emphasis> mutants in experimental populations of <Emphasis Type="Italic">Drosophila melanogaster MEIG</Emphasis>

A complex study on the adaptation of cn and vn mutants and the allozymes of alcoholdehydrogenase (ADH) was carried out in initially pure lines, and their panmixia populations during exchange of the mutant genotype with that of wild-type flies (C-S) and D) through saturating crossings. The relative adaptation of the genotypes was estimated by their effect on reproductive efficiency in the experimentally obtained population. Fecundity, lifespan, and the resistance of the studied genotypes to hyperthermia were investigated individually. It was shown that the high level of adaptation of the cn mutants and the low level of adaptation of the vg mutants was correlated with the presence of different ADH allozymes. In the studied population, the F-allozyme of ADH accompanied the vg mutation, while the S-allozyme of the enzyme was detected in cn mutants. Saturating crossings of C-S(Adh ^S)×vg(Adh ^F) and D(Adh ^F) × cn(Adh ^S), along with the parallel determination of the allele composition of the Adh locus, demonstrated that the complete substitution of the F-allozyme of ADH in the vg mutants by the S-allozyme in D flies, as well as the substitution of the S-allozyme of ADH in the cn mutants by the F-allozyme in D flies was realized only after the 15th–20th backcrosses. These results favor the coadaptation of cn and vg marker genes with alleles of the Adh locus and indicate the important role of the latter in the adaptation of genotypes. In the studied population, selection acted primarily against the vg mutants, which were inferior to the cn mutants, and heterozygote genotypes in indices of the main adaptation components.     

<Emphasis Type="Italic">BcMF11</Emphasis> and its homologous sequences may form a lncRNA family in <Emphasis Type="Italic">Brassica</Emphasis> diploids

BcMF11 is a long non-coding RNA that has been identified in Brassica rapa and shown to be involved in pollen development. Here, when re-cloned the gene sequence, multiple paralogous copies of BcMF11 were identified in B. rapa (A genome). Multiple paralogous copies of BcMF11 were also found in B. nigra (B genome) and Brassica oleracea (C genome), the other two primary diploids of Brassica U triangle. While in the early diverging Brassicaceae lineage including Arabidopsis thaliana, no BcMF11 homolog was found. Phylogenetic analysis showed that the BcMF11 homologous sequences cloned from A genome or C genome could be clustered into a separate branch, respectively. However, there was no distinct cluster defined for BcMF11 homologous sequences cloned from B genome. The expression of BcMF11 in B. rapa was investigated and revealed a different result in the previous study. In addition, 12 expressed sequence tags from B. napus and B. rapa showing high similarities with BcMF11 were identified in the NCBI database, which further verified that rather than the useless repeat fragments in the genome, the BcMF11 homologous genes could transcribe. It is possible that BcMF11 and its homologous sequences may form a large gene family which might be originated in the recent ancestral lineage of Brassica.     

Biotechnological advances in <Emphasis Type="Italic">Lilium</Emphasis>

Modern powerful techniques in plant biotechnology have been developed in lilies (Lilium spp., Liliaceae) to propagate, improve and make new phenotypes. Reliable in vitro culture methods are available to multiply lilies rapidly and shorten breeding programs. Lilium is also an ideal model plant to study in vitro pollination and embryo rescue methods. Although lilies are recalcitrant to genetic manipulation, superior genotypes are developed with improved flower colour and form, disease resistance and year round forcing ability. Different DNA molecular markers have been developed for rapid indirect selection, genetic diversity evaluation, mutation detection and construction of Lilium linkage map. Some disease resistance-QTLs are already mapped on the Lilium linkage map. This review presents latest information on in vitro propagation, genetic engineering and molecular advances made in lily.     

The relationship between allozyme and morphometric variation in pink salmon <Emphasis Type="Italic">Oncorhynchus gorbuscha</Emphasis> from Southern Sakhalin

The relationship between allozyme polymorphism and morphometric variation in pink salmon from Southern Sakhalin was examined in order to determine the effects of individual genes. Dramatic differences were found between individuals of some genotypes. For instance, the difference in average male body length between the two prevailing PGDH ^* genotypes reached 0.36σ, which corresponds to 5% contribution to the total variance of the trait. It would take only several generations for selection in favor of extreme phenotypes to rapidly shift the allele frequencies at loci of such a strong effect, which should be taken into account both in fishery management and in practical hatchery. Long-term selection can result in irreversible genetic changes in the population, which may be hazardous in the context of causing irreparable harm to the biological resources of the Earth.     

Cloning of the <Emphasis Type="Italic">Brcer1</Emphasis> gene involved in cuticular wax production in a glossy mutant of non-heading Chinese cabbage (<Emphasis Type="Italic">Brassica rapa</Emphasis> L. var. <Emphasis Type="Italic">communis</Emphasis>)

Cuticular wax is a complex mixture of very-long-chain fatty acid derivatives. The wax on the surface of plants serves as a protective barrier to reduce non-stomatal water loss and environmental damage. However, the loss of wax may lead to a glossy phenotype, which is an favorable trait in leafy vegetables. The mechanism of glossy mutants in non-heading Chinese cabbage (Brassica rapa L. var. communis) has not been studied yet. In this study, scanning electron microscopy (SEM) showed that the cuticular wax on the leaves and stem of a glossy mutant was dramatically reduced compared with that of the wild-type plant. Transmission electron microscopy (TEM) revealed that the cuticle ultrastructure of glossy mutant leaf and stem were altered when compared with the wild type. A cuticle wax analysis showed the total wax content of leaves, as well as alkanes, ketones and alcohols, was decreased. A genetic analysis indicated that the glossy phenotype was controlled by a single gene. Based on a homology analysis, the Brcer1 gene was identified as the candidate gene controlling the glossy phenotype. In the glossy mutant, a 39-bp deletion leads to an mRNA disruption and reduces the expression of the BrCER1 gene. Sequence analysis showed that a loss of function mutation in the Brcer1 gene was different from that of Cgl1, which was previously shown to be responsible for the glossy phenotype in B. oleracea, showing typical parallel selection. These findings provide a better understanding of the cuticular wax biosynthesis pathway and offer important information for molecular-assisted breeding of non-heading Chinese cabbage (B. rapa L. var. communis).     

Identification and fine mapping of a stay-green gene (<Emphasis Type="Italic">Brnye1</Emphasis>) in pakchoi (<Emphasis Type="Italic">Brassica campestris</Emphasis> L. ssp. <Emphasis Type="Italic">chinensis</Emphasis>)

Key message

Using bulked segregant analysis combined with next-generation sequencing, we delimited the Brnye1 gene responsible for the stay-green trait of nye in pakchoi. Sequence analysis identified Bra019346 as the candidate gene.

Abstract

“Stay-green” refers to a plant trait whereby leaves remain green during senescence. This trait is useful in the cultivation of pakchoi (Brassica campestris L. ssp. chinensis), which is marketed as a green leaf product. This study aimed to identify the gene responsible for the stay-green trait in pakchoi. We identified a stay-green mutant in pakchoi, which we termed “nye”. Genetic analysis revealed that the stay-green trait is controlled by a single recessive gene, Brnye1. Using the BSA-seq method, a 3.0-Mb candidate region was mapped on chromosome A03, which helped us localize Brnye1 to an 81.01-kb interval between SSR markers SSRWN27 and SSRWN30 via linkage analysis in an F₂ population. We identified 12 genes in this region, 11 of which were annotated based on the Brassica rapa annotation database, and one was a functionally unknown gene. An orthologous gene of the Arabidopsis gene AtNYE1, Bra019346, was identified as the potential candidate for Brnye1. Sequence analysis revealed a 40-bp insertion in the second exon of Bra019346 in nye, which generated the TAA stop codon. A candidate gene-specific Indel marker in 1561 F₂ individuals showed perfect cosegregation with Brnye1 in the nye mutant. These results provide a foundation for uncovering the molecular mechanism of the stay-green trait in pakchoi.

     

Flight behavior and oviposition of <Emphasis Type="Italic">Tuta absoluta</Emphasis> on susceptible and resistant genotypes of <Emphasis Type="Italic">Solanum lycopersicum</Emphasis>

Plants produce volatile chemical compounds that can negatively affect the preference (antixenosis) or the performance (antibiosis) of herbivorous insects. It is thought that these volatile compounds are used as cues by herbivorous insects to determine the suitability of the plant for egg deposition and, hence, offspring performance. Here, we investigated whether volatiles produced by tomato plants play a role in modulating the flight and oviposition behavior of mated Tuta absoluta females. We found that the behavioral steps displayed by mated females did not differ when they flew toward resistant or susceptible tomato genotypes, but they reached the susceptible genotypes faster than the resistant ones. Moreover, females landed more often and laid more eggs on the most susceptible genotype, the Santa Clara variety. Because this variety is known to be of high quality for the development of T. absoluta larvae, the female’s decision to land and lay more eggs on this genotype seems to be mainly to maximize offspring performance. However, this is not so straightforward because the proportion of landings and eggs laid by T. absoluta on another susceptible genotype tested in this study was not significantly higher than on the resistant genotypes. Finally, although future studies are still needed, considering the antixenotic and antibiotic traits of the resistant genotypes studied here, they are likely to succeed if used in integrated pest management.     

Development of SCAR markers linked to <Emphasis Type="Italic">sin</Emphasis>-<Emphasis Type="Italic">2</Emphasis>, the stringless pod trait in pea (<Emphasis Type="Italic">Pisum sativum</Emphasis> L.)

With increasing consumer demand for vegetables, edible-podded peas have become more popular. Stringlessness is one of most important traits for snap peas. A single recessive gene, sin-2, controls this trait. Because pollen carrying the stringless gene is less competitive than pollen carrying the stringy gene, there are fewer than expected stringless plants recovered in segregating generations. Marker-assisted selection (MAS) is a valuable tool to identify plants with the traits of interest at an early stage in the breeding process. The objective of this study was to identify robust, user-friendly molecular markers tightly linked to sin-2. A total of 144 target region amplification polymorphism (TRAP) primer combinations were used to screen four DNA bulks, which were constructed from 32 pea breeding lines based on their phenotypes. Sixty polymorphic TRAP primer combinations were identified between bulks of stringless and stringy pods. Five primer combinations, F6_Trap03_168, F6_SA12_145, F10_ODD8_130, F11_GA5_850, and F12_SA12_190, showed more than 90 % association with the stringless phenotype in 32 pea breeding lines. Two of the TRAP markers, F10_ODD8_130 and F12_SA12_190, were cloned, sequenced, and successfully converted to sequence characterized amplified region (SCAR) markers. These two SCAR markers were validated using 20 F₅ recombinant inbred lines derived from a cross between Bohatyr (a dry pea variety with strings) and S1188 (a stringless snap pea variety) and showed strong marker-trait association. The results will have direct application in MAS of stringless edible-podded peas.     

Development of cost-effective single nucleotide polymorphism marker assays for genetic diversity analysis in <Emphasis Type="Italic">Brassica rapa</Emphasis>

Competitive allele-specific PCR (KASPar) assay is a user-friendly system that provides flexibility in the numbers of single nucleotide polymorphisms (SNPs) and genotypes. Based on Illumina-GA-IIx genomic data from 10 genotypes with a broad genetic background, 3183 SNPs were selected for KASPar assays development, and 568 were finally converted and selected for Brassica rapa germplasm characterization (17.8%) on the basis of reproducibility, missing data rate, and uniform genetic distribution. High levels of polymorphism of these markers across 231 B. rapa genotypes were verified, illustrating by high polymorphic information content (averaged 0.34), minor allele frequency (0.37), genetic diversity (0.45), and the low observed heterozygosity (0.10). Based on the SNP dataset, structure and principal coordinates analysis, and neighbor-joining phylogenetic methods were used to examine the population structure and gave highly consistent results. The 231 accessions were divided into the four primary subspecies, representing 99 accessions from B. rapa ssp. pekinensis, 85 from B. rapa ssp. chinensis, 30 from B. rapa ssp. rapifera, and 17 from B. rapa ssp. oleifera and were further subdivided into 12 lower-order clusters according to different morphotypes. The genetic variability and pairwise fixation index analysis revealed that the ssp. pekinensis accessions possess the most extensive genetic variation among the four subspecies. The KASPar system is highly useful for validating SNPs and will be valuable for genetics research and breeding applications in B. rapa.