Factors affecting callus and shoot formation from in vitro cultures of Lens culinaris Medik.

The influence of culture medium and explant on callus and shoot formation of lentil (Lens culinaris Medik.) has been studied. Three different explants (shoot-tip, first node and first pair of leaves) from three Spanish lentil cultivars were cultivated on two basal media: Murashige and Skoog medium (MS) and medium with mineral salts of MS medium plus vitamins of Gamborg's B5 medium (MSB), supplemented with growth regulators. Media with 2,4-D induced the formation of calli in all explants, but no organ regeneration was obtained from these calli. Multiple shoot formation was obtained from 33% to 92% of the explants in media supplemented with 2.25 mg l^–1 of BA and 0.186 mg l^–1 NAA+2.25 mg l^–1 BA; in the other media one to two shoots per explant were formed in 10 to 98% of the explants. Root formation from explants was achieved only in media with NAA or IAA. Of the explants tested, the best morphogenetic responses were obtained from nodes and the poorest from leaves.     

Genome-wide analysis of maize cytoplasmic male sterility-S based on QTL mapping

Three types of sterile cytoplasm in cytoplasmic-male-sterility (CMS) maize, T, C and S, can be identified according to their fertility-restoration and mitochondrial DNA RFLP patterns. CMS-S, which is the least stable among the three types of CMS, is controlled by sterile cytoplasm interactions with certain nuclear-encoded factors. We constructed a high-resolution map of loci associated with male-restoration of CMS-S in BC1 populations of maize. The map covers 1730.29 cM, including 32 RFLP, 51 SSR 62 RAPD and 21 AFLP markers. Genome-wide QTL analysis detected 6 QTLs with significant effects on male fertility as assessed by their starch-filled pollen ratios. Four QTLs out of six were located between the SSR markers MSbnlg1633-Mrasg20, MSbnlg1662-Msume1126, MSume1230-MSumc1525, and RAPD marker MraopQ07-2-MraopK06-2 on chromosome 2. Two other minor loci were mapped between MraopK16-1-Mraopi4-1, on chromosome 9, and between Msuncbnlg1139-MraopR10-2, on chromosome 6. The Rf3 nuclear restoring gene was precisely located on the chromosome 2, 2.29 cM to the left of umc1525 and 8.9 cM to the right of umc1230. The results provide important markers for marker-assisted selection of stable CMS-S maize.     

In vitro regeneration of cereals based on multiple shoot induction from mature embryos in response to thidiazuron

The in vitro competency of mature cereal embryos (winter, spring and durum wheats, oat, barley and triticale) was assessed for direct multiple shoot production on culture media containing the plant growth regulators, thidiazuron (TDZ) and/or 6–benzylaminopurine (BAP). Mature embryos of CDC Dancer oat showed the best response, with 69 shoots per explant on culture medium containing a combination of 4.5 μM TDZ and 4.4 μM BAP. TDZ alone induced about 16 shoots per explant from the oat. Among the wheat genotypes, durum wheat showed the most number of shoots (35) per explant on culture medium containing 4.5 μM of TDZ and 4.4 μM of BAP. With TDZ alone, shoot regeneration for durum wheat ranged from 27–32 shoots per explant. The regeneration frequency from the three winter wheat genotypes ranged from 11–25 shoots per explant and was highest on culture medium containing 9.1 μM TDZ and 4.4 μM BAP. The latter culture medium was also effective for a triticale genotype, inducing 34 shoots per explant. The regeneration from mature embryos of barley genotypes ranged from 5–9 shoots per explant. The mature embryos of all the cereals tested could be used for in vitro regeneration with TDZ and TDZ+BAP combinations.     

SSR与SRAP标记在玉米品种鉴定中的比较研究

利用SSR标记和SRAP标记对19个玉米品种及8份莱农15样品进行了分析,比较了2种标记的分辨能力及在亲缘关系和杂交种纯度鉴定中的表现.与SSR标记相比,SRAP标记用于玉米品种鉴定扩增住点数量更多,PIC值更高,具有更高的分辨率;在亲缘关系分析方面,SSR检测的遗传距离变幅更大,2种标记计算的遗传距离呈极显著正相关,分类结果基本一致;在杂交种纯度检测中,SRAP标记的期望位点在杂交种群体中检测率高于SSR标记相应位点,检测杂交种纯度结果更接近田问种植鉴定,因而准确度更高.SRAP在玉米品种鉴定中具有一定的优势,可作为SSR标记技术的有益补充,特别是在杂交种纯度鉴定中应用.     

In vitro regeneration of sesame (Sesamum indicum L.) from seedling cotyledon and hypocotyl explants

The goal of this study was to develop an efficient regeneration protocol to be used for genetic transformation of sesame. Published regeneration methods using benzyladenine (BA) and 1-naphthalene acetic acid (NAA) were unsuccessful for the cultivars used herein. Experiments were carried out using cotyledon and hypocotyl explants from the cultivar Mtwara-2. Later the optimised culture conditions were used to investigate the regeneration response of different genotypes. There was significant interaction between hormone treatments and macronutrients for shoot and root regeneration. Results also showed that shoot regeneration was significantly influenced by explant type. Shoots were only obtained from cotyledons whereas both cotyledons and hypocotyls could produce roots. Modified Murashige and Skoog (MS) medium with N6 macronutrients resulted in twice the shoot regeneration frequency obtained with ½MS macronutrients in the presence of thidiazuron (TDZ). The shoot regeneration frequency was significantly reduced when BA was used in place of TDZ. On shoot regeneration medium containing BA and NAA, only roots were formed. Replacing NAA with indole-3-acetic acid (IAA) greatly improved the regeneration of shoots. The optimum growth regulator combination for shoot regeneration was 20 μM TDZ together with 2.5 μM IAA, which gave a frequency of 63% and 4.4 shoots per regenerating explant for the best cultivar Ex-El. Genotypic differences were significant both for the number of explants regenerating shoots and the number of shoots produced per regenerating explant.     

A shoot regeneration protocol effective on diverse genotypes of sunflower (Helianthus annuus L.)

Summary We describe a protocol, and several experiments that helped lead to its development, for sunflower regeneration. Important factors for sunflower regeneration were explant age, cytokinin type and concentration, basal medium, and explant source. We could not induce shoot regeneration from the explants derived from mature tissues including leaf, petiole, and stem. However, use of juvenile explants such as embryo meristem and primordial leaf tissues allowed routine regeneration of 17 different sunflower genotypes. High frequency of shoot regeneration was achieved with these explants taken from seedlings up to 5 d after germination. Explant age was less critical for embryo meristem explants than for primordial leaf tissues. Of the four basal media tested, MS and B5 media produced higher shoot-regeneration frequencies than did Anderson and woody plant media. The highest shoot-regeneration frequency was obtained with MS medium supplemented with 2 μM BA and without auxin. Addition of 1 μM naphthalene-acetic acid to the medium significantly reduced both the percentage of explants producing shoots and average number of shoots per explant. Regenerated shoots were grown to maturity in a greenhouse.     

Direct plant regeneration from leaf explants of Plumbago species and its genetic fidelity through RAPD markers

In vitro plant regeneration was achieved from leaf explants of Plumbago rosea and Plumbago zeylanica on Murashige & Skoog (1962) medium supplemented with 1.5 mg litre^?1 6‐benzylaminopurine, 0.25 mg litre^?1 indole‐3‐acetic acid, 50 mg litre^?1 adenine sulfate and 3% (w/v) sucrose. The shoot initials developed within 2–3 wk on the leaf margin as well as from the wounds of the leaf. High frequency shoot‐bud regeneration was achieved on similar medium in subsequent subcultures. The semi‐mature leaves produced more shoot‐buds as compared to the younger leaves. Mature leaves did not show any response for shoot bud initiation. More than 85% of the semi‐mature explants produced shoot‐buds per leaf explant within 4 wk of culture. Shoots rooted easily on medium having half‐strength basal Murashige & Skoog (1962) medium supplemented with 0.25 mg litre^?1 indole‐3‐butyric acid and 2% (w/v) sucrose; 84–92% of the in vitro rooted plantlets survived in the greenhouse. The regenerated plantlets appeared morphologically similar to the mother plants. No variation was detected among the regenerated plants by the use of Randomly Amplified Polymorphic DNA (RAPD) markers. This method might be useful for assessing plant improvement programmes.     

Application of rapd in the determination of genetic fidelity in micropropagated Drosera plantlets

Summary Random amplified polymorphic DNA (RAPD) markers were used to verify the clonal fidelity of two micropropagated Drosera species, D. anglica and D. binata, which were regenerated by adventitious budding from leaf explants and shoot tips, respectively. Twenty arbitrary decamers were used to screen 15 randomly selected plantlets of each species. No genetic variation was detected among D. binata regenerants, whereas a 0.08% polymorphism frequency was estimated for D. anglica plantlets. These results indicate that the regeneration of plants through shoot-tip culture is a low-risk method for generating genetic variability, whereas material regenerated through leaf explants requires further verification.     

A novel pathway for rapid shoot regeneration from the proximal zone of the inpocotyl of melon (Cucumis melo L.)

Summary Hypocotyl explants of melon (Cucumis melo L.) are capable of regenerating multiple shoots on Murashige and Skoog (1962) medium, augmented with 4.4 μM benzylademne. Regeneration from the hypocotyl is much more rapid than the more commonly reported regeneration from cotyledonary explants, producing shoots within 2 wk compared to more than a month required for cotyledon explants. The rapid regeneration response depends on the presence of a fragment of the cotyledon remaining attached to the hypocotyl. Controls were performed to ensure that the regeneration was not due to the presence of the shoot apical bud of the melon seedling after explant production. Scanning electron microscopy revealed that microsurgery to remove the apical bud left no excess bud material. Regeneration from the proximal part of the hypocotyl was due to production of a new shoot apical meristem, observed by histology. The apical meristem can be produced before leaf primordia in regeneration from the hypocotyl, in contrast to the regeneration process from the melon cotyledon.     

Split-seed: a new tool for maize researchers

Until recently, immature embryos have been a choice tissue for manipulation in culture for regeneration and production of transgenic maize plants. The utility of this explant has been compromised by low output, genotype dependence and time-consuming incubation in tissue culture. We have developed a new explant, the split-seed, which addresses these limitations by formally treating each seed as though it were a “dicot”. By splitting maize seed longitudinally, three different tissues: the scutellum, the coleoptilar-ring and the shoot apical meristems are simultaneously exposed. The cells of these tissues can be made competent to enhance the regeneration, given that the molecular networks resulting from exposure of the split-seed to hormones is likely to be different from whole seed and, in turn, affects the in vitro response. Using this explant, callus induction frequency exceeded 92% and the regeneration frequency was 76%. The mean number of shoots regenerated via callus was 11 shoots per callus clump and 28 shoots per explant at first sub-culture. All of the regenerated plants survived and were 95% fertile. The large numbers of fertile plants produced were regenerated in 6–8 weeks. Finally, the incidence of regenerated plants varies as a function of growth regulator profile.Electronic Supplementary Material Supplementary material is available for this article at and is accessible for authorized users.     

Plant regeneration from shoot tips and callus of papaya

Summary Two methods of in vitro culture were employed to regenerate papaya plants. One involved regeneration of plants from callus and the other, production of multiple plants from single shoot-tip explants. Callus was induced from stem sections of papaya seedlings in a medium containing 1 mg per 1 NAA and 0.1 mg per 1 kinetin. The callus regenerated shoots and/or embryoids when transferred to a medium of lower auxin, 0 to 0.05 mg per 1 IAA, and higher cytokinin, 1 to 2 mg per 1 kinetin Multiple shoots were produced when the excised shoot-tip explants were cultured in a medium supplemented with 0.05 mg per 1 IAA and either 5 mg per 1 kinetin or 0.5 to 1.0 mg per 1 benzyladenine. Root formation of the shoots or embryoids that derived from callus or shoot tips occurred in a medium containing 5 mg per 1 IAA and in a light intensity of 3000 to 4000 Ix. The rooted plants could be established in soil and under standard greenhouse conditions after they had been acclimated by initially growing them in moist vermiculite contained in polyethylene-covered pots. This research was supported by the National Science Council, Republic of China.     

A rapid in vitro propagation of red sanders (<Emphasis Type="Italic">Pterocarpus santalinus</Emphasis> L.) using shoot tip explants

An efficient protocol has been developed for the in vitro propagation of Pterocarpus santalinus L. using shoot tip explants which is a valuable woody medicinal plant. Various parts of this plant are pharmaceutically used for the treatment of different diseases. Multiple shoots were induced from shoot tip explants derived from 20 days old in vivo germinated seedlings on 1:1 ratio of sand and soil after treating with gibberellic acid (GA₃). The highest frequency for shoot regeneration (83.3%) with maximum number of shoot buds (11) per explant was obtained on Murashige and Skoog (MS) medium supplemented with 1.0 mg/l of 6-benzylaminopurine (BAP) along with 0.1 mg/l of thidiazuron (TDZ) after 45 days of culture. A proliferating shoot culture was established by repeatedly subculturing the original shoot tip explants on fresh medium after each harvest of the newly formed shoots. Sixty percent of the shoots produced roots were transferred to rooting medium containing MS salts and 0.1 mg/l indole-3-butyric acid (IBA) after 30 days. About 73.33% of the in vitro raised plantlets were established successfully in earthen pots. Random amplified polymorphic DNA (RAPD)-based DNA fingerprinting profiles were generated for the first time using shoot tip explants of this species and confirmed that there was no genetic variability. This protocol might be helpful for the mass multiplication of P. santalinus in the future.     

A simple procedure of Gossypium meristem shoot tip culture

In order to develop transgenic plants via the biolistic gun method regenerable embryogenic tissues are required. Meristem shoot tips of 19 cultivars of cotton were cultured on several media formulations and assessed for shoot and root development. The best shoot development was observed on media containing 0.46 mM kinetin while rooting was observed on media containing 2.68 mM NAA and 0.46 mM kinetin. No intervarietal variability was observed. A complete protocol was developed from meristem tip culture to field transfer. This methodology is simple and replaces the existing protocols for meristem tip culture of cotton. This revised version was published online in June 2006 with corrections to the Cover Date.     

Sugarbeet (<Emphasis Type="Italic">Beta vulgaris</Emphasis> L.): shoot regeneration from callus and callus protoplasts

The successful application of recombinant DNA technology for crop plants requires efficient regeneration systems. A detailed study on the regeneration potential of callus and callus-derived protoplasts of a recalcitrant species, sugarbeet, was performed. A reproducible and highly efficient method for induction of regenerable friable callus was established from etiolated hypocotyl explants. A reduced sucrose concentration proved beneficial. Successful shoot regeneration could be demonstrated in 10 out of 12 tested lines. Seed germination, followed by callus induction and shoot regeneration required only a single culture medium. Additionally, the regeneration capacity of roots and root-derived callus was demonstrated. Highly efficient plant regeneration was also achieved when using protoplasts isolated from regenerable friable callus induced on etiolated hypocotyls explants. To our knowledge this represents the first report on callus protoplast to plant regeneration in sugarbeet.     

沙田柚茎尖嫁接苗离体培养的研究

对沙田柚茎尖嫁接苗的离体培养进行了研究,结果表明:顶芽在MS 0.5mg/L6-BA上生长较好,成活率为100%,单个外植体平均不定芽数为2.2,但不定芽生长极慢,成苗困难.加入0.2～0.5mg/LIBA,顶芽生长加快,但单个外植体平均不定芽数下降.带有1cm长枳壳砧木的茎尖在MS 0.5mg/L6-BA上可以形成丛芽,单个外植体平均不定芽数为4.5,而且不定芽生长迅速.虽然我们未能诱导外植体不定根发生,但通过试管嫁接可以获得完整植株.     

Efficient plant regeneration from leaves of rapeseed (Brassica napus L.): the influence of AgNO3 and genotype

Factors influencing reliable shoot regeneration from leaf explants of rapeseed (Brassica napus L.) were examined. Addition of AgNO₃ to callus induction medium was significantly effective for shoot regeneration in all three genotypes initially tested. When 48 genotypes subsequently were surveyed, a large variation of shoot regenerability was observed, ranging from 100 to 0% in frequency of bud formation and from 7.5 to 0 in the number of buds per explant. A significant correlation (r=0.84) was observed between the frequency of bud formation and the number of buds per explant. The shoot regenerability from leaf explants was not related to that from cotyledonary explants (r=0.28). Histological observations showed that an organized structure developed from calluses produced at vascular bundle tissues after 7 days of culture on callus induction medium, and they developed shoot apical meristems one week after transfer onto shoot induction medium. Regenerated plantlets were obtained 2 months after the initiation of culture and they normally flowered and set seeds. No alterations of morphology or DNA contents were observed in regenerated plants and their S1 progenies.     

Recovery of fertile plants from isolated,cultured maize shoot apices

Maize shoot apices (1 to 2mm size) from two sources were used to recover normal plantlets. The first explant source included shoot apices from the embryonic axis of immature embryos, 12–14 days post pollination in the glasshouse (spring) or 15–20 days post pollination in the summer nursery. In most explants, the shoot apical meristem was surrounded by a coleoptile primordium which was removed before culture. The second explant source included shoot apices from the plumules of 72 h imbibed mature kernels. The coleoptile and all other leaf layers (leaf-1 to leaf-3 or 4) of the plumule were removed before culture to expose the apical meristem. Among the genotypes studied, a recovery of 43% (Mo17) to 100% (Oh43) of plantlets was achieved from shoot apices from immature embryo plumules cultured in MS medium. Recovery of 80% of Oh43 plantlets in MS medium and 40% of A188 plantlets from apices of plumules of imbibed (72 h) seeds in MS medium containing 2,4-dichlorophenoxyacetic acid was recorded. The plantlets derived from both explant sources grew normally and produced viable seeds upon pollination.     

High Efficiency Organogenesis in Sweet Pepper (Capsicum annuum L.) Tissues from Different Seedling Explants

In vitro plant regeneration was achieved from eightsweet pepper varieties (Capsicum annuum L.). The effect ofvarious explant types (cotyledons, leaves, cotyledonary nodes and shoot-tip from25-day-old seedlings and embryonic cotyledons, embryonic hypocotyls and woundedseedlings) on bud and shoot regeneration and shoot elongation was evaluated.Differences in ability for in vitro shoot regeneration andelongation depended on the variety and explant type. In general, highregeneration frequency was obtained from all varieties. Agridulcedisplayed the highest regeneration response: an average of 3.45 elongated shootsper explant using embryonic cotyledons. Elongated shoots were excised and rootedon Murashige and Skoog (MS) basal medium either without plant growth regulatorsor with 0.5 IBA (indole-3-butyric acid) or 0.05 NAA (-naphthaleneacetic acid). Plantlets weretransplanted to soil and acclimatised in the greenhouse showing normaldevelopment and growing to maturity bearing normal fruits with seeds.     

Age and orientation of the cotyledonary leaf explants determine the efficiency of de novo plant regeneration and Agrobacterium tumefaciens-mediated transformation in Jatropha curcas L.

Effects of age and orientation of the explant on callus induction and de novo shoot regeneration from cotyledonary leaf segments of Jatropha curcas were studied. The callus induction and shoot regeneration capacity of cotyledonary leaf segments were found significantly related to the age of the explants and their orientation in culture medium. The youngest explant, derived from the cotyledonary leaf of germinated seed induced the highest regeneration response as compared to one- and two-week-old explants. A gradient response with age of the explant was observed in percentage of callus induction, shoot regeneration from callus and the number of shoots per regenerating callus. The explants cultured with their abaxial side in medium showed significantly higher regeneration response. The youngest explant was found to be most amenable to Agrobacterium-mediated transformation as compared to older explants. The fact that callus induced from the edges of the explant followed by de novo shoot induction, and strong transient gus expression observed in the edges of the explant are significant for routine Agrobacterium-mediated transformation and generation of stable transgenic plants in J. curcas.     

DNA分子标记技术在玉米种子纯度鉴定中的应用

从常规鉴定、生化鉴定及分子标记技术鉴定等方面,阐述了玉米种子纯度鉴定的重要性。进一步对RAPD、RFLP、SSR和AFLP等分子标记技术在种子纯度鉴定和品种真实性分析中的应用潜力及存在问题进行比较,得出SSR分子标记技术是目前种子纯度和品种真实性鉴定中最适宜的技术。