Comparison of Deoxyribonucleic Acid Uptake and Marker Integration in Bacilli and Protoplasts of Bacillus subtilis

trp(+)his(-) donor deoxyribonucleic acid (DNA) was added to highly competent trp(-)his(+) recipient bacilli and to protoplasts prepared from these bacilli, and the cell-DNA complexes were incubated for 30 min. The complexes were then washed and lysed, and their DNA was analyzed on a trp(-)his(-) strain for the donor marker trp(+), the resident marker his(+), and for the recombinant trp(+)his(+) combination. The extracts of the bacillary complexes contained a normal percentage of donor markers (0.1-0.2%), and the number of trp(+)his(+) doubles (20% of all trp(+) transformants) indicated that the donor DNA had become integrated into the resident genomes. The protoplast complexes contained 10 to 1,000 times fewer donor markers and almost no recombinants. This indicated that, in protoplasts, marker uptake was minimal and recombination was absent. Uptake was also measured with (3)H-labeled DNA. On the average, protoplasts took up one-fiftieth as much DNA as bacilli. It was concluded that, probably, protoplasts took up no DNA at all, that there were no DNA affinity sites on the surface of the protoplasts, and that the residual marker and radioactivity uptake was due to imperfections in the experimental system. The data and conclusions differed sharply from earlier ones of Hirokawa and Ikeda despite the fact that the techniques of these authors were followed in repeat experiments.     

Quantitative analysis of the fate of exogenous DNA in Nicotiana protoplasts

After a 5-hour incubation of protoplasts of Nicotiana tabacum L. ;Xanthi' with (3)H-DNA (7.26 mug/ml) from N. tabacum L. ;Xanthi nc' 3.5% of the initial radioactivity was found in acid-insoluble substances of the protoplasts. The addition of DEAE-dextran and poly-l-lysine to the incubation medium nearly doubled radioactivity adsorption. The absorption was inhibited by 2,4-dinitrophenol, KCN, and low temperature (0 C); this inhibition could not be reversed by exogenous ATP. About 500 tobacco plants established from protoplasts of a normally tobacco-mosaic virus-susceptible cultivar that had been allowed to absorb DNA prepared from a resistant cultivar did not show transfer of the virus-resistant gene.A detailed analysis was performed of the disposition of exogenous DNA in plant protoplasts, by employing Escherichia coli(3)H-DNA and Nicotiana glutinosa protoplasts. In 5 to 20 hours, about 10% of the (3)H-DNA entered the protoplasts. Competition experiments between the (3)H-DNA and unlabeled DNA or thymidine showed that the entry occurred as undegraded (3)H-DNA. Examination of intraprotoplast fractions revealed that 60 to 80% of the absorbed radioactivity resided in the "soluble" fraction of the cytoplasm and 20% in the nuclear fraction. The mitochondrion fraction also contained measurable radioactivity. Sizing on sucrose density gradients showed that the bulk of the absorbed E. coli DNA had been depolymerized. Of the incorporated radioactivity, 15% was accountable as DNA, exogenous as well as resynthesized, and 15% as RNA, protein, and other cell constituents. DNA/DNA hybridization test indicated that 17.6% of the re-extractable (3)H-DNA retained homology with the E. coli DNA; this was equivalent to 2.6% of the absorbed radioactivity. Resynthesized receptor protoplast DNA was represented by a fraction at least 1.7% of the total absorbed radioactivity. The amount of bacterial DNA remaining in protoplasts suggests that each protoplast retained 2.3 x 10(-15)g donor DNA, or approximately half of the E. coli genome.     

Transformation of protoplasts of nontransformableBacillus subtilis mutants by plasmid pUB 110 DNA

Protoplasts rather than intact cells of nontransformableB. subtilis mutants were transformed by plasmid pUB 110 DNA. Transformability of protoplasts of the NT mutants indicates that the mechanism of uptake of the donor DNA by protoplasts differs from that by competent intact cells.     

Genetic Recombination of Transforming Deoxyribonucleic Acid Molecules with the Recipient Genome and Among Themselves in Protoplasts of Bacillus subtilis

Hirokawa, Hideo (Southwest Center for Advanced Studies, Dallas, Tex.), and Yonosuke Ikeda. Genetic recombination of transforming deoxyribonucleic acid molecules with the recipient genome and among themselves in protoplasts of Bacillus subtilis. J. Bacteriol. 92:455-463. 1966.-Re-extraction of transforming deoxyribonucleic acid (DNA) from protoplasts of Bacillus subtilis is much more efficient than from intact competent cells. This facilitated the detection of physical recombination between donor and recipient DNA molecules, as indicated by a high cotransfer index of ind(+) and his(+) markers which were originally located in exogenous and endogenous DNA molecules, respectively. This recombinant DNA was extracted after 30 min of incubation of ind his(+) protoplasts with ind(+)his DNA, previously extracted from a corresponding mutant strain of B. subtilis. The intracellular formation of recombinant molecules (ind(+)his(+)) bearing markers from two different exogenous DNA species was also detected 15 min after exposure of ind his recipient protoplasts to a mixture of ind(+)his and ind his(+) donor DNA molecules. The unity of the recombinant molecule was ascertained by dilution experiments and by its being resistant to ribonuclease and trypsin treatment (but being sensitive to deoxyribonuclease). The formation of recombinant molecules showed an inverse kinetics to that of the intracellularly induced loss of linkage between the corresponding markers in the wild-type DNA, thus suggesting a breakage and reunion process which is also favored by the absence of DNA synthesis in the protoplasts and the effect of some specific inhibitors.     

Asymmetric somatic hybridization between tall fescue (Festuca arundinacea Schreb.) and irradiated Italian ryegrass (Lolium multiflorum Lam.) protoplasts

Intergeneric asymmetric somatic hybrids have been obtained by the fusion of metabolically inactivated protoplasts from embryogenic suspension cultures ofFestuca arundinacea (recipient) and protoplasts from a non-morphogenic cell suspension ofLolium multiflorum (donor) irradiated with 10, 25, 50, 100, 250 and 500 Gy of X-rays. Regenerating calli led to the recovery of genotypically and phenotypically different asymmetric somatic hybridFestulolium plants. The genome composition of the asymmetric somatic hybrid clones was characterized by quantitative dot-blot hybridizations using dispersed repetitive DNA sequences specific to tall fescue and Italian ryegrass. Data from dot-blot hybridizations using two cloned Italian ryegrass-specific sequences as probes showed that irradiation favoured a unidirectional elimination of most or part of the donor chromosomes in asymmetric somatic hybrid clones obtained from fusion experiments using donor protoplasts irradiated at doses 250 Gy. Irradiation of cells of the donor parent with 500 Gy prior to protoplast fusion produced highly asymmetric nuclear hybrids with over 80% elimination of the donor genome as well as clones showing a complete loss of donor chromosomes. Further information on the degree of asymmetry in regenerated hybrid plants was obtained from chromosomal analysis including in situ hybridizations withL. multiflorum-specific repetitive sequences. A Southern blot hybridization analysis using one chloroplast and six mitochondrial-specific probes revealed preferentially recipient-type organelles in asymmetric somatic hybrid clones obtained from fusion experiments with donor protoplasts irradiated with doses higher than 100 Gy. It is concluded that the irradiation of donor cells before fusion at different doses can be used for producing both nuclear hybrids with limited donor DNA elimination or highly asymmetric nuclear hybrid plants in an intergeneric graminaceous combination. For a wide range of radiation doses tested (25–250Gy), the degree of the species-specific genome elimination from the irradiated partner seems not to be dose dependent. A bias towards recipient-type organelles was apparent when extensive donor nuclear genome elimination occurred.Abbreviations cpDNA Chloroplast DNA - 2, 4-D 2,4-dichlorophenoxyacetic acid - FDA fluorescein diacetate - IOA iodoacetamide - mtDNA mitochondrial DNA - RFLP restriction fragment length polymorphism     

Escherichia coli plasmid pBR313 insertion into plant protoplasts and into their nuclei

Summary Cowpea mesophyll protoplasts were shown to bind irreversibly up to 3% input radioactive pBR313 plasmid DNA after 15 min of contact. Maximum uptake occurred in the presence of 5mM ZnSO₄ and 5 g/ml poly-L-ornithine. Under these conditions about one half of the TCA precipitable radioactivity was associated with the nuclear fraction and behaved as linear plasmid molecules. These could not be chased from the protoplasts upon further incubation with unlabeled plasmid DNA. The presence of donor DNA within the nuclear fraction is most probably not due to an artifactual redistribution of adsorbed plasmid DNA. Prolonged incubation periods resulted in extensive degradation of plasmid in the incubation medium but little degradation occurred in the protoplasts. The donor DNA was not covalently associated with the protoplast nuclear DNA.     

通过不对称体细胞杂交向小麦转移青苗碱谷DNA(英文)

普通小麦“济南177”(Triticum aestzvum L.cv.Jinan 177)经继代培养和选择,形成了两种性质不同的愈伤组织,一种生长迅速,易于形成悬浮系,游离的原生质体具有旺盛的分裂能力,但不能分化,称为Cha 9;另一种具有一定分化能力,但游离的原生质体分裂能力低,称为176。二者之一来源的原生质体与紫外线照射的青苗碱谷原生质体融合均不能获得再生植株。而将来源于Cha 9和176的两种原生质体混合,与经紫外线照射的青苗碱谷原生质体在PEG诱导下融合,融合产物再生了大量植株。再生的愈伤组织及植株经表型、细胞学、同工酶、RAPD分析,证明了其杂种性质,用小麦叶绿体特异的简单重复序列(SSR)引物分析了再生杂种的叶绿体遗传组成情况。在不同的杂种克隆中,同时带有Cha 9和176的遗传物质并含有供体核及胞质基因组的克隆4具有较高的分化能力,再生了大量生长旺盛的完整植株。     

通过不对称体细胞杂交向小麦转移青苗碱谷DNA

普通小麦"济南177"(Triticum aestivum L.cv.Jinan177)经继代培养和选择,形成了性质不同的愈伤组织,一种生长迅速,易于形成悬浮系,游离的原生质具有旺盛的分裂能力,但不能分化,称为Cha9;另一种具有一定能力,但游离原生质体分裂能力低,称为176.二者之一来源的原生质体与紫外线照射的青苗碱谷原生质体融合均不能获得再生植株.而将源于Cha9和176的两种原生质体混合,与经紫外线照射的青苗碱谷原生质体在PEG诱导下融合,融合产物再生了大量植株.再生的愈伤组织及植株经表现型、细胞学、有工酶、RAPD分析,证明了其杂种性质,用不麦叶绿体特异的简单得复序列(SSR)引物分析了再生杂种的叶绿体遗传组成情况.在不同的杂种克隆中,同时带有Cha9和176的遗传物质并含有供体核及胞质基因组的克隆4具有较高的分化能力,再生了大量生长旺盛的完整植株.     

花椰菜与黑芥种间体细胞杂种的获得和鉴定

利用非对称体细胞杂交技术, 获得芸薹属花椰菜(Brassica oleracea var. botrytis)与黑芥(B. nigra)的种间杂种, 实现了野生种质抗病基因向甘蓝类蔬菜作物的渗透。以具有良好再生能力的花椰菜下胚轴原生质体作为融合受体, 具有抗黑腐、黑胫和根肿病优良性状的黑芥叶肉原生质体作为融合供体, 用不同强度的UV射线处理后, 利用PEG方法诱导供、受体原生质体融合。培养后获得170棵再生植株, 选取来自40个不同愈伤组织的40棵单株进行形态学观察及RAPD和SRAP分子标记检测, 结果表明其中30棵为体细胞杂种。染色体计数显示, 约23%杂种植株的染色体数目小于供、受体染色体数之和。用流式细胞仪测定DNA含量显示, 杂种植株DNA含量是受体的2-4倍, 20%杂种植株DNA含量小于供、受体之和。     

Cytoplasmic hybridization in Nicotiana: mitochondrial DNA analysis in progenies resulting from fusion between protoplasts having different organelle constitutions

Summary Our previous studies indicated that fusion products with one functional nucleus but organelles of the two fusion partners (i.e. heteroplastomic cybrids) could be obtained by fusing X-irradiated (cytoplasmic donor) with non-irradiated (recipient) Nicotiana protoplasts. The present report deals with the analysis of mitochondria in cybrid populations resulting from the fusion of donor Nicotiana tabacum protoplasts with recipient protoplasts having a N. Sylvestris nucleus but chloroplasts of an alien Nicotiana species, and exhibiting cytoplasmic male sterility. The two fusion parents showed significant differences in restriction patterns of their chloroplast and mitochondrial DNA. Four groups of cybrid plants were obtained by this fusion. All had N. sylvestris nuclei but contained either donor or recipient chloroplasts and had either sterile or fertile anthers. There was no correlation between anther fertility and chloroplasts type. The mitochondrial DNA restriction patterns of sterile cybrids were similar to the respective patterns of the sterile fusion partner while the mitochondrial DNA restriction patterns of the fertile cybrids were similar to the respective patterns of the fertile fusion partner. The results indicate an independent assortment of chloroplasts and mitochondria from the heteroplastomic fusion products.     

The role of irradiation dose and DNA content of somatic hybrid calli in producing asymmetric plants between an interspecific tomato hybrid and eggplant

Highly asymmetric somatic hybrid plants were obtained by PEG/DMSO fusion of gamma-irradiated mesophyll protoplasts of the kanamycin-resistant (KmR⁺) interspecific hybrid Lycopersicon esculentum x L. pennellii (EP) with mesophyll protoplasts of Solanum melongena (eggplant, E). Elimination of the EP chromosomes was obtained by irradiating the donor genome with different doses of gamma rays (100, 250, 500, 750 and 1000 Gy). The selection of somatic hybrid calli was based on kanamycin resistance; EP and E protoplasts did not divide due to the irradiation treatment and sensitivity to kanamycin, respectively. KmR⁺ calli were recovered following all irradiation doses of donor EP protoplasts. The hybrid nature of the recovered calli was confirmed by PCR amplification of the NptII gene, RAPD patterns and Southern hybridizations using potato ribosomal DNA and pTHG2 probes. Ploidy levels of calli confirmed as hybrid were further analyzed by flow cytometry. Such analyses revealed that the vast majority of hybrid calli that did not regenerate shoots were 5–9n polyploids. The three asymmetric somatic hybrid plants obtained were regenerated only from callus with a ploidy level close to 4n, and such calli occurred only when the donor EP had been exposed to 100 Gy. The amount of DNA in somatic hybrid calli, from 100-Gy exposure, was found by dot blot hybridization with the species-specific probe, pTHG2, to be equivalent with 3.1–25.8% of the tomato genome. Thus, DNA contained in 3.8–13.2 average-size tomato chromosomes was present in these hybrid calli. The asymmetric somatic hybrid plants had the eggplant morphology and were regenerated from one hybrid callus that contained an amount of tomato DNA equivalent to 6.29 average-size tomato chromosomes.     

Does pretreatment by rhodamine 6-G affect the mitochondrial composition of fusion-derived Nicotiana cybrids?

Rhodamine-6G(R6G), a lipophilic dye which degrades mammalian mitochondria, was shown to arrest the division of Nicotiana protoplasts. When albino recipient-protoplasts were treated with R6G and fused with X-irradiated (green) donor- protoplasts, only green cybrid plants were obtained. The mtDNA of the cybrids was analyzed by Southern-blot hybridization. We found that cybrids which resulted from N. rustica (donor) protoplasts, fused with R6G-treated albino protoplasts, had only parental-type mtDNA. When another donor, with N. undulata mtDNA, was used, most of the resulting cybrids contained non-parental mtDNA. Only one cybrid (out of 12) had N. undulata -type (donor) mtDNA.Abbreviations big N. bigelovii - IAA indoleacetic acid - mtDNA mitochondrial DNA - R6G rhodamine 6G - tbc N. tabacum und, N. undulata     

Analysis of the plastome and chondriome origin in plants regenerated after asymmetric Solanum ssp. protoplast fusions

Protoplasts from potato cultivars used as recipient parents were fused with irradiated protoplasts from wild Solanum donor species. Regenerated plants were analysed by RAPDs to identify hybrids. Irradiation of donor protoplasts with ionizing irradiation induced a broad range of donor nuclear DNA elimination in the asymmetric hybrids. Usage of chloroplast (cp)- and mitochondrial (mt)-specific PCR markers made it possible to trace the different origins of the cp genome in seven fusion combinations, as well as the mt genomes in two fusion combinations. Regenerated plants with recipient nucleus and plastome markers from the donors were found in six of the seven analysed fusion combinations. Protoplast fusion has generated novel mt genome combinations consisting of different portions of the mt genomes from the fusion partners. Selection of heterofusion products based on fluorescence markers is an efficient method to obtain asymmetric Solanum hybrids and cy- brids from most fusion combinations. Possible models for cybrid formation are discussed. Received: 7 October 1999 / Accepted: 3 December 1999     

Genome reorganization in Nicotiana asymmetric somatic hybrids analysed by in situ hybridization

In situ hybridization was used to examine genome reorganization in asymmetric somatic hybrids between Nicotiana plumbaginifolia and Nicotiana sylvestris obtained by fusion of gamma-irradiated protoplasts from one of the parents (donor) with non-irradiated protoplasts from the other (recipient). Probing with biotinylated total genomic DNA from either the donor or the recipient species unequivocally identified genetic material from both parents in 31 regenerant plants, each originating from a different nuclear hybrid colony. This method, termed genomic in situ hybridization (GISH), allowed intergenomic translocations containing chromosome segments from both species to be recognized in four regenerants. A probe homologous to the consensus sequence of the Arabidopsis thaliana telomeric repeat (5'-TTTAGGG-3')n, identified telomeres on all chromosomes, including 'mini-chromosomes' originating from the irradiated donor genome. Genomic in situ hybridization to plant chromosomes provides a rapid and reliable means of screening for recombinant genotypes in asymmetric somatic hybrids. Used in combination with other DNA probes, it also contributes to a greater understanding of the events responsible for genomic recovery and restabilization following genetic manipulation in vitro.     

Repair of UV damage in plasmid DNA by human fibroblasts

Summary Plasmid DNA from Bacillus subtilis was introduced into monolayers of human fibroblasts by means of a modification of the calcium phosphate coprecipitation technique, comprising centrifugation of the coprecipitate onto the cells and treatment with polyethyleneglycol. The amount of DNA resistant to removal from the monolayers ranged from 10% to 15% of the input DNA. By determination of the biological activity of the plasmid DNA, re-extracted after various periods following entry into the fibroblasts and subsequently used as donor for B. subtilis protoplasts, it was shown that the activity of the plasmid DNA was gradually lost. When ultraviolet light-inactivated plasmid DNA was used as donor, reactivation of the plasmid was observed, which was completed within 2 h. The dose-dependent incorporation of [¹⁴C]-thymidine suggests that DNA repair processes were involved in reactivation of the plasmid DNA.     

Comparative study of symmetric and asymmetric somatic hybridization between common wheat andHaynaldia villosa

Symmetric and asymmetric protoplast fusion between long term cell suspension-derived protoplasts ofTriticum aestivum (cv. Jinan 177) and protoplasts ofHaynaldia villosa prepared from one-year-old embryogeneric calli was performed by PEG method. In asymmetric fusion, donor calli were treated with gamma ray at a dose of 40, 60, 80 Gy (1.3 Gy/min) respectively and then used to isolate protoplasts. Results of morphological, cytological, biochemical (isozyme) and 5S rDNA spacer sequence analysis revealed that we obtained somatic hybrid lines at high frequency from both symmetric and asymmetric fusion. Hybrid plants were recovered from symmetric and low dose γ-fusion combinations. GISH (genomicin situ hybridization) analysis proved exactly the existence of both parental chromosomes and the common occurrence of several kinds of translocation between them in the hybrid clones regenerated from symmetric and asymmetric fusion. And the elimination of donor DNA in hybrid clones regenerated from asymmetric fusion combinations was found to increase with the increasing gamma doses. It is concluded that transference and recombination of nuclear DNA can be achieved effectively by symmetric and asymmetric fusion, hybrids with small fragment translocation which are valuable in plant breeding can be obtained directly by asymmetric fusion.     

Comparative study of symmetric and asymmetric somatic hybridization between common wheat andHaynaldia villosa

Symmetric and asymmetric protoplast fusion between long term cell suspension-derived protoplasts ofTriticum aestivum (cv. Jinan 177) and protoplasts ofHaynaldia villosa prepared from one-year-old embryogeneric calli was performed by PEG method. In asymmetric fusion, donor calli were treated with gamma ray at a dose of 40, 60, 80 Gy (1.3 Gy/min) respectively and then used to isolate protoplasts. Results of morphological, cytological, biochemical (isozyme) and 5S rDNA spacer sequence analysis revealed that we obtained somatic hybrid lines at high frequency from both symmetric and asymmetric fusion. Hybrid plants were recovered from symmetric and low dose γ-fusion combinations. GISH (genomicin situ hybridization) analysis proved exactly the existence of both parental chromosomes and the common occurrence of several kinds of translocation between them in the hybrid clones regenerated from symmetric and asymmetric fusion. And the elimination of donor DNA in hybrid clones regenerated from asymmetric fusion combinations was found to increase with the increasing gamma doses. It is concluded that transference and recombination of nuclear DNA can be achieved effectively by symmetric and asymmetric fusion, hybrids with small fragment translocation which are valuable in plant breeding can be obtained directly by asymmetric fusion.     

INFLUENCE ON ELECTROFUSION BY ADSORPTION OF FLUORESCENT DEXTRAN ON PROTOPLAST MEMBRANES

In this paper, the influence of negatively charged active fluorescent dextran on electrofusion of barley protoplasts was investigated. We discovered that this biopolymer inhibits the electrofusion process. The adsorption of fluorescent dextran on membranes was determined by observing their fluorescence microphotograph in protoplast suspension. A green fluorescent ring appeared around the membrane. The adsorption phenomena were also investigated by measuring the influence of additives on electrophoresis of protoplasts. It was detected that the membrane of barley protoplasts had a negative charge. After being stored in solution containing fluorescent dextran, the protoplasts demonstrated increased relative mobility due to the increase of negative charge on membranes by adsorption. The mobility decreased when the protoplasts were pretreated in the solution containing positively charged substances Bardac 2080. The increase of the membrane's negative charge by adsorption F-DX enhances the repulsion between protoplasts, and therefore decreases the electrofusion yield.     

Regeneration and analysis of interspecific asymmetric potato –Solanum ssp hybrid plants selected by micromanipulation or fluorescence-activated cell sorting (FACS)

 Recipient protoplasts from three Solanum tuberosum genotypes, cv ‘Folva’ (2n=4x=48), cv ‘Matilda’ (4n) and ‘161 : 14’ (2n), were electrofused with X-ray-irradiated donor protoplasts from two wild species S. spegazzinii (2n) or S. microdontum×S. vernei (2n). Prior to fusion, protoplasts were fluorescence-labelled with either fluorescein diacetate or scopoletin. Fusion products were identified by dual fluorescence and selected by micromanipulation or fluorescence-activated cell sorting (FACS). All putative hybrid plants were analysed by the random amplified polymorphic DNA (RAPD) technique. Our analysis demonstrates that each asymmetric hybrid plant has an individual and stable profile of donor-specific RAPD bands. The irradiation of donor protoplasts hampered the growth of selected heterofusion products in a dose-dependent way. Irradiation resulted in donor chromosome elimination, but not in a dose dependent way, in the tested interval. In asymmetric hybrids with the S. spegazzinii donor 33–68% of the donor-specific RAPD bands were missing, indicating a similar level of chromosome elimination. In asymmetric hybrid plants with the S. microdontum×S. vernei donor 74–95% of the donor RAPD bands were missing. Chromosome countings revealed that these hybrids had chromosome numbers equal to or below the chromosome numbers found in the tetraploid recipients. This is the first time that highly asymmetric hybrid plants between two tetraploid potato recipients and the donor S. microdontum×S. vernei have been obtained. Received : 16 December 1996 / Accepted: 21 February 1997     

Fate of plasmid DNA in transformation of Bacillus subtilis protoplasts

Summary Polyethylene glycol-treated protoplasts of B. subtilis can be transformed by plasmid DNA at very high frequencies (Chang and Cohen 1979). From analysis of plasmid mediated transformation of transformation-deficient mutants it appeared that mutants, reduced in the transformation by plasmid DNA in the competent state, were plasmid transformation-proficient when transformed as protoplasts. By means of CsCl-gradient centrifugation of re-extracted plasmid DNA it could be demonstrated that plasmid DNA enters the protoplasts in the double-stranded form. In addition, sucrose gradient centrifugation of the re-extracted plasmid DNA showed that the entered DNA is predominantly present as covalently closed circular DNA. The efficiency of plasmid transformation in protoplasts was found to be close to one (each plasmid molecule having entered into the protoplasts gives rise to a transformed cell). This is in good agreement with the observation that little, if any, damage is done to this DNA during or after entry into protoplasts.