High-resolution fine mapping of ps-2, a mutated gene conferring functional male sterility in tomato due to non-dehiscent anthers

Functional male sterility is an important trait for the production of hybrid seeds. Among the genes coding for functional male sterility in tomato is the positional sterility gene ps-2. ps-2 is monogenic recessive, confers non-dehiscent anthers and is the most suitable for practical uses. In order to have tools for molecular-assisted selection (MAS) we fine mapped the ps-2 locus. This was done in an F₂ segregating population derived from the interspecific cross between a functionally male sterile line (ps-2/ps-2; Solanum lycopersicum) and a functionally male fertile line (S. pimpinellifolium). Here we report the procedure that has led to the high-resolution fine mapping of the ps-2 locus in a 1.65 cM interval delimited by markers T0958 and T0635 on the short arm of Chromosome 4. The presence of many COS markers in the local high-resolution map allowed us to study the synteny between tomato and Arabidopsis at the ps-2 locus region. No obvious candidate gene for ps-2 was identified among the known functional male sterility genes in Arabidopsis.     

Expression of sunflower cytoplasmic male sterility-associated open reading frame, orf H522 induces male sterility in transgenic tobacco plants

Sterility in the universally exploited PET1-CMS system of sunflower is associated with the expression of orfH522, a novel mitochondrial gene. Definitive evidence that ORFH522 is directly responsible for male sterility is lacking. To test the hypothesis that ORFH522 is sufficient to induce male sterility, a set of chimeric constructs were developed. The cDNA of orfH522 was cloned in-frame with yeast coxIV pre-sequence, and was expressed under tapetum-specific promoter TA29 (construct designated as TCON). For developing control vectors, orfH522 was cloned without the transit peptide under TA29 promoter (TON) or orfH522 was cloned with or without transit peptide under the constitutive CaMV35S promoter (SCOP and SOP). Among several independent transformants obtained with each of the gene cassettes, one third of the transgenics (6/17) with TCON were completely male sterile while more than 10 independent transformants obtained with each of the control vectors were fertile. The male sterile plants were morphologically similar to fertile plants, but had anthers that remained below the stigmatic surface at anthesis. RT-PCR analysis of the sterile plants confirmed the anther-specific expression of orfH522 and bright-field microscopy demonstrated ablation of the tapetal cell layer. Premature DNA fragmentation and programmed cell death was observed at meiosis stage in the anthers of sterile plants. Stable transmission of induced male sterility trait was confirmed in test cross progeny. This constitutes the first report at demonstrating the induction of male sterility by introducing orfH522 gene that could be useful for genetic engineering of male sterility. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Induced androgenesis in tomato (Lycopersicon esculentum Mill.) I. Influence of genotype on androgenetic ability

The androgenetic ability of 85 Lycopersicon esculentum Mill. genotypes was tested. Callus was induced from anthers of 53 lines and hybrids. Regeneration of plants was obtained only from calli of 15 genotypes. The data obtained clearly showed that the genotype affects induced androgenesis in tomato. The in vitro response of anthers from the cultivars Roma, Pearson, San Marzano, Por, Sar, Vigapol, Day, David and Start, containing the ms 10³⁵ gene, which is responsible for male sterility in tomato, confirm the strongly expressed dependence of both callus induction and organogenetic potential on the homozygous or heterozygous state of that gene. A protocol of callus induction, organogenesis and plant regeneration has been developed. More than 6000 regenerants have been obtained. Most of them showed different morphological alterations and variations in chromosome number (n, 2n, 4n). Some are interesting as source material for tomato breeding. Received: 17 April 1997 / Revision received: 4 August 1997 / Accepted: 15 October 1997     

Efficient production of genetically engineered,male-sterile <Emphasis Type="Italic">Arabidopsis thaliana</Emphasis> using anther-specific promoters and genes derived from <Emphasis Type="Italic">Brassica oleracea</Emphasis> and <Emphasis Type="Italic">B. rapa</Emphasis>

Prevention of transgene flow from genetically modified crops to food crops and wild relatives is of concern in agricultural biotechnology. We used genes derived from food crops to produce complete male sterility as a strategy for gene confinement as well as to reduce the food purity concerns of consumers. Anther-specific promoters (A3, A6, A9, MS2, and MS5) were isolated from Brassica oleracea and B. rapa and fused to the β-glucuronidase (GUS) reporter gene and candidate genes for male sterility, including the cysteine proteases BoCysP1 and BoCP3, and negative regulatory components of phytohormonal responses involved in male development. These constructs were then introduced into Arabidopsis thaliana. GUS analyses revealed that A3, A6, and A9 had tapetum-specific promoter activity from the anther meiocyte stage. Male sterility was confirmed in tested constructs with protease or gibberellin insensitive (gai) genes. In particular, constructs with BoCysP1 driven by the A3 or A9 promoter most efficiently produced plants with complete male sterility. The tapetum and middle layer cells of anthers expressing BoCysP1 were swollen and excessively vacuolated when observed in transverse section. This suggests that the ectopic expression of cysteine protease in the meiocyte stage may inhibit programmed cell death. The gai gene also induced male sterility, although at a low frequency. This is the first report to show that plant cysteine proteases and gai from food crops are available as a novel tool for the development of genetically engineered male-sterile plants. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Molecular characterization of an anther-specific gene from tobacco shows sequence similarity to a tapetum-specific gene from tomato

We have cloned and determined the DNA sequence of the cDNA of ntGRP15. The cDNA ntGRP15 represents an anther-specific, developmentally regulated gene from Nicotiana tabacum that encodes a glycine-rich protein. Northern analysis shows that the gene is specifically expressed in anthers and is stringently regulated during anther development. It appears only in anthers at the meiosis to free microspore stages of development. The encoded protein is small (12.2 kDa), has a 31% glycine content and contains a putative signal sequence. By both nucleotide and amino acid sequence alignment, the gene shows high sequence similarity to a gene previously isolated from Lycopersicon esculentum, namely, TomA92b9. High glycine content, presence of a signal sequence and similarity to the tomato TomA92b9 gene suggests the protein functions as a structural cell wall protein, possibly involved in pollen exine formation. Received: 14 September 1999 / Accepted: 24 September 1999     

Abscisic acid in a male sterile tomato mutant and its regulation by low temperature

The role of abscisic acid in male sterility in the stamenless21 (sl-2) mutant of tomato (Lycopersicon esculentum) was investigated. Vegetative and floral parts (except pistil) of sl-2 contain greater amount of abscisic acid (ABA) than the normal wild type. The maximum difference in ABA content between sl-2 and normal tissues was in stamens, and the increase in ABA level in sl-2 stamens coincided with first signs of abnormalities in the anthers. Low temperatures restore male fertility in sl-2 and there was a concomitant drop in ABA level in sl-2 leaves and stamens. These observations, along with our earlier reports, suggest that male sterility in sl-2 is a manifestation of hormonal imbalance involving high ABA, and that low temperature regulation of male sterility is mediated through reduction in ABA content.Key words: Abscisic acid, Lycopersicon esculentum, male sterility, temperature, tomato.      

Expression of stilbene synthase gene in transgenic tomato using salicylic acid-inducible Cre/loxP recombination system with self-excision of selectable marker

A plant transformation vector, pCLKSCLA25 (EU327498), was developed to contain eight cloning sites and the inducible self-excision system which provided an effective approach to eliminate the selectable marker gene(s) from transgenic plants. Upon induction by salicylic acid, the cre gene produced a recombinase that eliminated sequences encoding the selectable marker neomycin phosphotransferase and cre itself. The excision efficiency was 41% in transgenic tomato regenarants. The stilbene synthase gene (vst1) from Vitis vinifera L. was cloned into pCLKSCLA25. The expression of vst1 gene contributed to the accumulation of trans-reveratrol from 3.4 to 8.7 μg/g fresh wt in different marker-free transgenic tomato lines. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

The first large duplication of the RSK2 gene identified in a Coffin-Lowry syndrome patient

Heterogeneous mutations in the X-linked gene RPS6KA3, encoding the protein kinase RSK2, are responsible for Coffin-Lowry Syndrome. Here we have further studied a male patient with a highly suggestive clinical diagnosis of CLS but in whom no mutation was found by exon sequencing. Western blot analysis revealed a protein much larger than the normal expected size. Sequencing of the RSK2 cDNA, showed the presence of an in-frame tandem duplication of exons 17–20. The mutated RSK2 protein was found to be inactive in an in-vitro kinase assay. This event, which was the result of a homologous unequal recombination between Alu sequences, is the first reported large duplication of the RPS6KA3 gene. Our finding provides further evidence that immunoblot analysis, or a molecular assay capable to detect large genomic mutational events, is essential for patients with a highly suggestive CLS clinical diagnosis but remaining without mutation after exon sequencing. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

LAP3, a novel plant protein required for pollen development, is essential for proper exine formation

We isolated lap3-1 and lap3-2 mutants in a screen for pollen that displays abnormal stigma binding. Unlike wild-type pollen, lap3-1 and lap3-2 pollen exine is thinner, weaker, and is missing some connections between their roof-like tectum structures. We describe the mapping and identification of LAP3 as a novel gene that contains a repetitive motif found in β-propeller enzymes. Insertion mutations in LAP3 lead to male sterility. To investigate possible roles for LAP3 in pollen development, we assayed the metabolite profile of anther tissues containing developing pollen grains and found that the lap3-2 defect leads to a broad range of metabolic changes. The largest changes were seen in levels of a straight-chain hydrocarbon nonacosane and in naringenin chalcone, an obligate compound in the flavonoid biosynthesis pathway. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Developmental and cytogenetic analyses of pollen sterility in Valeriana scandens L.

Valeriana scandens presents perfect and pistillate flowers, the latter with sterile anthers. The species is composed of two varieties with different ploidy; V. scandens var. scandens (2n = 28) and V. scandens var. candolleana (2n = 56), both of which occur in RS, Brazil. Crosses between these varieties may give rise to hybrids with pollen sterility. In this study, we analyzed the microsporogenesis and microgametogenesis of sterile and fertile anthers, and also investigate whether pollen sterility is caused by an irregular meiotic process. Developmental analysis using light microscopy and scanning electron microscopy showed that sterile anthers develop similarly to fertile anthers until the end of meiosis. After this stage, sterile tetrads do not separate as a consequence of exine fusion between adjacent microspores, which is similar to sterile pollen of Brassica ms-cdl1 mutants. In addition, vacuolated immature pollen grains degenerate after separation. The cytogenetic analysis of the microspore mother cell (MMC) showed that the diploid population of V. scandens var. scandens (2n = 28) has pollen sterility that is not caused by a cytogenetic disturbance. The MMCs analyzed from prophase I to tetrad stage showed a regular meiotic process, indicating the phenotype of V. scandens sterile pollen is a postmeiotic process formed by fusion of exine between opposite microspores.     

Quantitative Proteomic Analysis of Mitochondria in Aging PS-1 Transgenic Mice

Accumulating evidence suggests mitochondrial alterations are intimately associated with the pathogenesis of Alzheimer’s disease (AD). In order to determine if mutations of presenilin-1 (PS-1) affect levels of mitochondrial proteins at different ages we enriched mitochondrial fractions from 3-, 6-, 12-month-old knock-in mice expressing the M146V PS-1 mutation and identified, and quantified proteins using cleavable isotope-coded affinity tag labeling and two-dimensional liquid chromatography/tandem mass spectrometry (2D-LC/MS/MS). Using this approach, 165 non-redundant proteins were identified with 80 of them present in all three age groups. Specifically, at young ages (3 and 6 months), Na⁺/K⁺ ATPase and several signal transduction proteins exhibited elevated levels, but dropped dramatically at 12 months. In contrast, components of the oxidative phosporylation pathway (OXPHOS), the mitochondrial permeability transition pore (MPTP), and energy metabolism proteins remained unchanged at 3 months but significantly increased with age. We propose that alterations in calcium homeostasis induced by the PS-1 mutation have a major impact in young animals by inhibiting the function of relevant proteins and inducing compensatory changes. However, in older mice combination of the PS-1 mutation and accumulated oxidative damage results in a functional suppression of OXPHOS and MPTP proteins requiring a compensatory increase in expression levels. In contrast, signal transduction proteins showed decreased levels due to a break down in the compensatory mechanisms. The dysfunction of Na⁺/K⁺ ATPase and signal transduction proteins may induce impaired cognition and memory before neurodegeneration occurs. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Identification of RAPD markers linked to the ps gene and their usefulness for purity determination of breeding lines and F1 tomato hybrids

The functional male sterility controlled by ps gene proved to be a useful tool in hybrid tomato varieties breeding in Poland. The climat conditions such as excessive temperature and high humidity have a bad effect on the expression and stability of functional male sterility. Using the RAPD methods we have identified two RAPD markers linked to the ps gene. The markers OPW 13₁₂₃₀ and OPAX 10₇₈₀ were generated by 5′CACAGCGACA 3′ and 5′CCAGGCTGAC 3′ decamers respectively in F₂ population of combination 24/29 × G-1.     

In-situ seed production after pollination with in-vitro-matured,isolated pollen

Immature tobacco (Nicotiana tabacum L.) pollen has been isolated from anthers in three distinct stages of development, including the microspore stage. In in-vitro cultures, fully functional, mature pollen was obtained. In a germination medium, this pollen produced pollen tubes. After application to stigmas in situ, the in-vitro-matured pollen fertilized ovules, and seeds were produced. Genetic tests with seedlings obtained from pollinations with in-vitro-matured pollen from a transgenic plant revealed normal Mendelian segregation of two marker genes, the neomycin-phosphotransferase II gene and the nopaline-synthase gene. These results are of interest with respect to the control of self-incompatibility, cytoplasmic male sterility and pollen-allergen formation, and it offers an alternative route for gene transfer in those plants which cannot be regenerated in vitro.Abbreviations cms cytoplasmic male sterility; AMGLU, MS, M2S, MR26 - GK culture media, see Material and methods     

Characterization and phylogenetic analysis of environmental stress-responsive <Emphasis Type="Italic">SAP</Emphasis> gene family encoding A20/AN1 zinc finger proteins in tomato

Characterization of genes responsive to stress is important for efforts on improving stress tolerance of plants. To address components involved in stress tolerance of tomato (Solanum lycopersicum), a stress-responsive gene family encoding A20/AN1 zinc finger proteins was characterized. In the present study, 13 members of this gene family were cloned from tomato cultivar Pusa Ruby and named as Stress Associated Protein (SAP) genes. Out of 13 genes, 12 have been mapped on their respective chromosomes. Expression of these genes in response to cold, heat, salt, desiccation, wounding, abscisic acid, oxidative and submergence stresses was analysed. All tomato SAP genes were found to be responsive to one or other type of environmental stress. The phylogenetic analysis of these genes, along with their orthologs from Solanaceae species suggests the presence of a common set of SAP genes in the studied Solanaceae species. The present study characterizes a SAP gene family, which encodes A20/AN1 zinc finger containing proteins from tomato for the first time. Genes showing high expression in response to a particular stress can be exploited for improving stress tolerance of tomato and other Solanaceae members. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

A TILLING approach to generate broad‐spectrum resistance to potyviruses in tomato is hampered by eIF4E gene redundancy

Genetic resistance to pathogens is important for sustainable maintenance of crop yields. Recent biotechnologies offer alternative approaches to generate resistant plants by compensating for the lack of natural resistance. Tomato (Solanum lycopersicum) and related species offer a model in which natural and TILLING‐induced potyvirus resistance alleles may be compared. For resistance based on translation initiation factor eIF4E1, we confirm that the natural allele Sh–eIF4E1^PI24–pot1, isolated from the wild tomato species Solanum habrochaites, is associated with a wide spectrum of resistance to both potato virus Y and tobacco etch virus isolates. In contrast, a null allele of the same gene, isolated through a TILLING strategy in cultivated tomato S. lycopersicum, is associated with a much narrower resistance spectrum. Introgressing the null allele into S. habrochaites did not extend its resistance spectrum, indicating that the genetic background is not responsible for the broad resistance. Instead, the different types of eIF4E1 mutations affect the levels of eIF4E2 differently, suggesting that eIF4E2 is also involved in potyvirus resistance. Indeed, combining two null mutations affecting eIF4E1 and eIF4E2 re‐establishes a wide resistance spectrum in cultivated tomato, but to the detriment of plant development. These results highlight redundancy effects within the eIF4E gene family, where regulation of expression alters susceptibility or resistance to potyviruses. For crop improvement, using loss‐of‐function alleles to generate resistance may be counter‐productive if they narrow the resistance spectrum and limit growth. It may be more effective to use alleles encoding functional variants similar to those found in natural diversity.     

Analysis of gene expression profile in pollen development of recessive genic male sterile <Emphasis Type="Italic">Brassica napus</Emphasis> L. line S45A

Male sterility in a near-isogenic line S45AB after 25 generations of subcrossing is controlled by two pairs of duplicate genes. The genotype of S45A is Bnms1Bnms1Bnms2Bnms2, and that of S45B is BnMs1Bnms1Bnms2Bnms2, respectively. Histological observations revealed that abnormal anther development appeared in the tapetum and pollen exine during the tetrad stage. This male sterility was characterized by hypertrophy of the tapetal cells at the tetrad stage and a complete lack of microspore exine after the release of microspores from the tetrads. To elucidate the mechanism of this recessive genic male sterility, the flower bud expression profiles of the S45A and S45B lines were analyzed using an Arabidopsis thaliana ATH1 oligonucleotide array. When compared with the S45B line, 69 genes were significantly downregulated, and 46 genes were significantly upregulated in the S45A line. Real-time polymerase chain reaction (PCR) was then used to verify the results of the microarray analysis, and the majority of the downregulated genes in the S45A line were abundantly and specifically expressed in the anther. The results of the real-time PCR suggest that Bnms1 might be involved in the metabolism of lipid/fatty acids, and the homologous mutation of Bnms1 may either block the biosynthesis of sporopollenin or block sporopollenin from being deposited on the microspore surface, thus, preventing pollen exine formation. The role of Bnms1 in the regulatory network of exine formation is also discussed as well. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

iTRAQ‐Based Proteomics Reveals that the Tomato ms1035 Gene Causes Male Sterility through Compromising Fat Acid Metabolism

So far, over 50 spontaneous male sterile mutants of tomato have been described and most of them are categorized as genetic male sterility. To date, the mechanism of tomato genetic male sterility remained unclear. In this study, differential proteomic analysis is performed between genetic male sterile line (2‐517), which carries the male sterility (ms10³⁵) gene, and its wild‐type (VF‐11) using isobaric tags for relative and absolute quantification‐based strategy. A total of 8272 proteins are quantified in the 2–517 and VF‐11 lines at the floral bud and florescence stages. These proteins are involved in different cellular and metabolic processes, which express obvious functional tendencies toward the hydroxylation of the ω‐carbon in fatty acids, the tricarboxylic acid cycle, the glycolytic, and pentose phosphate pathways. Based on the results, a protein network explaining the mechanisms of tomato genetic male sterility is proposed, finding the compromising fat acid metabolism may cause the male sterility. These results are confirmed by parallel reaction monitoring, quantitative Real‐time PCR (qRT‐PCR), and physiological assays. Taken together, these results provide new insights into the metabolic pathway of anther abortion induced by ms10³⁵ and offer useful clues to identify the crucial proteins involved in genetic male sterility in tomato.