Plant Regeneration from Protoplasts of Savoy Cabbage(Brassica oleracea L. var. subauda)

Protoplasts of savoy cabbage (Brassica olleracea L. var. subauda), "SA61" (SV), were isolated from leaves and hypocotyls of seedlings grown in vitro, in enzyme mixture containing 2% cellulase (Onozuka R-10) and 0.8% macerozyme RI0. Good results of protoplast collection were obtained by using 18% and 17% sucrose solution floating leaf protoplasts and hypocotyl protoplasts respectively, and centrifugalizing with the rate of 500 r/min. All the collected protoplasts were cultured in 5 different liquid media from which the best results were observed on DPD1 medium for leaf protoplasts and on MS1 medium for hypocotyl protoplasts, with the highest cell division rate and planting efficiency. About 2 weeks of cultures, many cell clusters and a few embryo-like structures were visualized. The cell clusters developed into visible microcalli in 20-30 days and grew up to 1 mm or so in dimeter about 40 days of culture. For growth, the calli were transferred to 7 different agar media and from which two suitable media, MB2 and MB3, were selected. Cultured for 40-50 days, the calli grew up, and were transferred to 4 solid media for organ differentiation. Ideal results of shoot regeneration were obtained on MS, medium. About 2 weeks after rooted on the MS medium without any auxin, intact plants were regenerated.     

皱叶甘蓝的原生质体培养与植株再生

皱叶甘蓝(Brassica oleracea L. var. subauda)“SA61”(SV)的叶及下胚轴分离的原生质体在 MS_1(修改的MS)培养基上细胞壁再生和分裂启动较快。叶原生质体在 DPD_1(修改的 DPD)培养基上获得了最高的分裂率和植板率;下胚轴原生质体在MS_1上获得最佳的培养效果。叶原生质体培养3—4天后见到一次分裂;下胚轴原生质体在48小时左右即可发生一次分裂。原生质体培养 20—30天后形成肉眼可见的微愈伤颗粒,40天左右即可达1mm大小。在7种不同培养基上增殖微愈伤组织,MB_2、MB_3表现了优良的效果。在MS_2培养基上的芽分化效果最为理想。在不加任何激素的MS培养基上诱导生根,2周后得到再生植株。     

Immunodiagnosis of human trichinellosis using excretory-secretory (ES) antigen.

Infective first stage larvae of Trichinella spiralis were recovered from muscles of laboratory infected mice by digesting the muscles with 1% HC1-1% pepsin and collecting the larvae by modified Baerman's method. The larvae were cultivated in a serum-free medium for 18 h. The ES antigen obtained from the culture medium was used in an enzyme-linked immunosorbent assay (ELISA) for detecting IgG antibodies to T. spiralis in serum samples collected from three groups of individuals. The individuals of the first group were parasitologically confirmed trichinellosis patients, while those of group 2 were patients with other helminthiasis and group 3 were healthy, parasite-free individuals. The specificity of the assay was 100%. The sensitivity of the test was also 100% when performed on sera of group 1 collected at days 57 and 120 after infection. Sera collected earlier (day 23) and those collected 700 days after infection had negligible reactivity. Thus IgG-ELISA using ES antigen of the L1 was useful not only for diagnosis but also in evaluation of cure. Western blot analysis revealed that specific antigens of T. spiralis were 94, 67, 63, and 39 kilodalton components.     

Effect of food level on the growth and survival of laboratory-reared larvae of bay anchovy (anchoa mitchilli Valenciennes) and scaled sardine (harengula pensacolae Goode & Bean)

The effect of food levels on the growth and survival of laboratory-reared larvae of scaled sardines (Harengula pensacolae Goode & Bean) and bay anchovies (Anchoa mitchilli Valenciennes) was determined. Wild zooplankton, most of which was copepod nauplii and copepodids, was used as food. H. pensacolae larvae grew 0.80 mm/day at a low (444 organisms/1) and high food level (1324 organisms/1). Survival was appreciably better (14.5%) at the low than (3.5%) at the high food level, 23 days after hatching. A. mitcchilli larvae grew faster at medium and high food concentrations. Average growth rates for three replicated experiments were 0.48 mm/day at low food (621–692 organisms/1), 0.50 mm/day a t medium food (1330–1688 organisms/1), and 0.54 mm/day at high food (2811–3323 organisms/1). Survival of A. mitchilli larvae, 20 to 28 days after hatching, ranged from 0.0 to 17.8% and was better at medium and high food levels than at the low food level. The resultsng indicate that 500 to 1000 copepod nauplii and copepodids/1 provided adequate food for rearing H. pensacolae but 1500–2000/1 were consistently required to rear A. mitchilli.     

蝴蝶兰原球茎增殖分化影响因子探讨

采用3个月胚龄的种胚播种形成的原球茎,初代培养时间在2.5~3个月之间换瓶转接,原球茎生长状况较好,分化形成的芽苗生长健壮;以1/2MS为基本培养基培养30d,原球茎增殖率达332%,MS培养基更有利于分化,培养2个月分化发芽率达90.6%;附加不同细胞分裂素原球茎的增殖率为6-BA >KT >Ad+KT >Ad;NAA浓度在0~1.0mg/L,对原球茎增殖分化影响不明显。     

Effects of male-female rations on mating and egg production in Octomyomermis muspratti (Mermithidae: Nematoda)

Octomyomermis muspratti, a mermithid parasite of mosquito larvae, molted to the adult stage in 4–16 days. When male-female ratios were relatively high (1:2), mating and oviposition began soon after maturation, and oviposition was completed in 21–40 days. The number of females developing eggs increased with a corresponding increase in the male-female ratio. About 60% of the females completed oviposition at male-female ratios of 1:20, and about 100% completed oviposition as the male-female ratios were increased to 1:2. No egg development was observed in the absence of males. Male O. muspratti were capable of mating with a number of females and remained reproductively active for at least 50 days after a maturation at 26–28°C.     

Plant Regeneration of Protoplasts of Trifolium lupinaster L. from Cell Suspension Cultures

paper deals with regeneration of protoplasts in cell suspension cultures of hypocothl from Trifolium lupinaster L. on the SL2 basal medium with BA 0.1 mg/L and picloram 0.06 mg/L for 3--4 month,s. The protopiasts were isolated from suspensions cells subcultured for 3 days and were recuhured in modified liguid medium 8p. The first division of the regenerated cell occurred 3 days after being cultured in medium Bp. Small calli could be seen with naked eyes by one month. The calli when grew up to 2 mm long, were transferred in succession differentiation medium A and B for organ differentiation. The differentiated shoots formed their roots on 1/2 MS supplamented with NAA 1.0mg/L and then grew into plantlets.     

Mesophyll Protoplast Culture and Plant Regeneration of Oriental Planetree (Platanus orientalis)

Large populations of mesophyll protoplasts were released from the leaves of 1.5–2 month old sterile seedlings, with a high protoplast yield (3.7× 10 6g-1FW) after protoplast purification. The purified protoplasts were cultured in a modified K8p liquid medium supplemented with 0.5 mg/L 2,4-D, 1 mg/L NAA and 0.5 mg/L BA. Higher density (1× 106/ml) in the initial culture of protoplasts is favourable to the division of cultured mesophyll protoplasts of this woody species among the densities tested. The protoplasts started to divide after 6 days of culture, and achieved 26.8% division frequency by 14 days. Sustained divisions resulted in mass production of cell colonies and small calli in 8 weeks. The calli further grew to 2–3mm on the gelrite-solidified K8 medium supplemented with 0.2 mg/L NAA aud 0.5 mg/L BA. Then, they were transferred onto the MSB proliferation medium with 0.1 mg/L NAA and 0.25 mg/L BA, where compact and cream-coloured calli were formed. Shoot formation was initiated on MSB differentiation medium coraming 0.5 mg/L IAA, 1 mg/L each of BA and ZT. It was observed that the frequency of shoot formation was about 28.7%. Whole plantlets were regenerated upon transferring 3 cm shoots to 1/2MS medium with 0.5mg/L IBA and 0.1mg/L BA, from which they were already transplanted into pots and grew well in the phytotron of Shanghai Institute of Plant Physiology.     

黄粉虫幼虫体壁硬化过程中酚氧化酶活性的变化

为研究酚氧化酶(PO)在昆虫蜕皮过程中的功能和作用, 采用微量测定法研究了黄粉虫Tenebrio molitor体壁硬化过程中血淋巴和表皮中的PO活性变化。结果表明：初蜕皮幼虫血淋巴中PO活性较高, 但随着体壁的不断黑化与硬化, 其活性呈现下降趋势, 在3～4 h内达到最低点, 而后PO活性逐渐上升, 7 h左右活性上升至最高, 并接近于正常幼虫的水平;在刚蜕完皮后的1 h内, 体壁中 PO活性基本无变化, 但随后即开始下降, 3 h左右降到最低点, 然后开始回升, 6~7 h左右恢复到正常水平, 并趋于稳定;以L-DOPA为底物, 通过双倒数曲线作图法求得黄粉虫血淋巴PO的Km＝1.176 mmol/L, 体壁PO的Km＝0.881 mmol/L, 表明体壁PO与底物L-DOPA的亲和力要高于血淋巴PO。研究表明两种来源的酚氧化酶均参与了黄粉虫幼虫的体壁硬化过程, 但在作用方式及与底物的亲和力方面存在差异。     

高效诱导冬瓜再生植株的研究

将台湾冬瓜的种子接种于pH值为7.2的1/2MS培养基上预培养,5d左右种子即可萌发,萌发率为100%,幼苗生长正常。切取预培养15-20d的无菌幼苗的茎尖和带腋芽的茎段接种于MS 1mg/LNAA 4mg/L6-BA培养基上,10d左右在茎尖和茎段（带腋芽）切口处长出愈伤组织,30d左右在愈伤组织处分化出丛生芽,丛生芽的诱导频率接近95%,繁殖系数25.6。将小芽切下转入不加任何生长调节剂MS培养基上,培养几天后芽逐渐长大,并在芽的基部长出白色根系。选取生长健壮的试管苗经过炼苗后移栽到大田中,生长良好。     

Growth and development of winter tick, Dermacentor albipictus, on moose, Alces alces

Moose, Alces alces, were infested with 21,000 or 42,000 larval Dermacentor albipictus at the end of September. Larvae grew rapidly and molted to the nymphal stage 10-22 days after infestation. The nymphal stage lasted approximately 3 mo until mid-January and was characterized by a diapause. The diapause is likely an adaptation to survival in cold climates. Nymphs started engorging in January and adults were seen with increasing abundance from mid-January to March and April. The minimum parasitic period was 175 days. Growth of larvae and nymphs was similar on moose given different numbers of larvae and was generally similar between a moose infested in November and moose infested earlier. Dimensions and stages of development throughout the parasitic phase are given. Game enforcement officers are encouraged to use these data for determination of season of death of moose.     

Plant regeneration from protoplasts of soybean (Glycine max L.)

Protoplasts were isolated from immature cotyledons of six cultivars of Glycine max L. and cultured in the KP8 liquid medium supplemented with 0.2 mg/L 2,4-D, 1 mg/L NAA and 0.5 mg/L ZT. The protoplasts started to divide after 3–5 days of culture. Sustained divisions resulted in mass production of cell colonies and small calli in 6 weeks. The calli further grew to 2–3 mm on the gelritesolidified K8 medium and were transferred onto the MSB medium with 1 mg/L 2,4-D and 0.25 mg/L BA, to obtain compact and nodular calli. Shoot formation was initiated on MSB medium with 0.15 mg/L NAA, and BA, KT and ZT, 0.5 mg/L of each, with or without 500 mg/L CH. It was followed by plant regeneration. So far, 87 plants have been regenerated from 4 cultivars, and normal seeds were obtained from them after transplanting into pots.Abbreviation IAA indol-3-acetic acid - NAA naphthalene acetic acid - 2,4-D 2,4-dichlorophenoxy acetic acid - KT kinetin - BA 6-benzyladenine - ZT zeatin - CH casein hydrolysate     

Bacoside production by suspension cultures of Bacopa monnieri (L.) Pennell

Cell suspension cultures of Bacopa monnieri (L.) Pennell, grown in modified MS medium, grew some 5–6 fold over 40 days. Selected cell lines produced the important saponin, bacoside A, up to 1 g/100 g dry wt after this time.     

Plant Regeneration from Protoplasts of Suspension Cells of Saposhnilkovia divaricata (Turcz.) Schischk

Embryogenic calli were produced from the segments of the young roots, hypocotyls or petioles of test-tube seedlings on MS agar medium containing 1 mg/1 2,4-D. When shaken in the MS liquid medium, the calli formed cell suspension with many embryogenic cell clumps.Using the enzyme mixture: Onozuka R-10 1.5%+MacerozymeR-10 0.3%+Snailase 0.5%+CaCl2 5 mmol/l + Mannitol 0.6 mol/1 (pH=5.8), protoplasts were obtained from the cell clumps which had been subcultured for three to' seven days. When cultivated, the protoplasts grew and began to divide after four days, and formed cell clumps about l—2 mm within fifty days. Protoplast-derived calli were formed from the cell clumps on the MS agar medium with 0.5 mg/l 2,4-D. When transferred onto the MS agar medium containing 0.1 mg/1 6-BA or 0.1 mg/1 2,4-D and 0.5 mg/1 6-BA, the calli differentiated into embryoids. On the MS agar medium without phytohormone, the embryoids grew into plantlets.     

Intrastadial developmental resistance of third instar gypsy moths (Lymantria dispar L.) to L. dispar nucleopolyhedrovirus

Gypsy moth larvae become increasingly resistant to lethal infection by the Lymantria dispar M nucleopolyhedrovirus (LdMNPV) as they age within the fourth instar. Newly molted larvae are most sensitive to infection, mid-instars are least sensitive, and late-instars display intermediate sensitivity. This resistance occurs whether the virus is delivered orally or intrahemocoelically. The present study reveals a nearly identical pattern of resistance in third instar larvae. An LD₄₈ dose of polyhedra for newly molted third instars produced 18%, 10%, 8%, 25%, and 24% mortalities in larvae to which virus was orally administered at 12, 24, 48, 72, and 96 hours post-molt (hpm), respectively, which is a 6-fold reduction in mortality between newly molted larvae and mid-instars. An LD₄₄ dose of budded virus for newly molted third instars produced 33%, 23%, 17%, 31%, and 31% mortalities when injected into larvae that were 12, 24, 48, 72, and 96 hpm, respectively, which is a 2.6-fold reduction in mortality between newly molted larvae and mid-instars, indicating that approximately half of this resistance is midgut-based and half is systemically based. Doubling the viral dose did not overcome developmental resistance whether the virus was delivered orally or intrahemocoelically. In addition, time to death was significantly affected by the time post-molt at which the insect was inoculated with the virus. We suggest that intrastadial developmental resistance may affect both the ecology and management of the gypsy moth.     

Experimentally derived estimates of growth by juvenile Tachypleus tridentatus and Carcinoscorpius rotundicauda (Xiphosura) from nursery beaches in Hong Kong

Juvenile Tachypleus tridentatus and Carcinoscorpius rotundicauda with prosomal widths of between 17.1 and 91.1 mm were obtained from their nursery beaches in Hong Kong. They were kept in the laboratory and fed a mixture of squid, prawn and fish. Prosomal width and wet weight were measured weekly to obtain growth data. Over half of the individuals molted during a five and a half month captivity period. After every ecdysis, prosomal width and wet weight of T. tridentatus grew by averages of 24.2% and 71.5% over pre-molt measurements, respectively. Similar values were obtained for C. rotundicauda, i.e. 24.0% and 77.3%, respectively. Three T. tridentatus with prosomal widths of between 26.5 and 35.0 mm molted twice between 89 and 149 days, leading to an average growth rate of 0.1 mm·day⁻¹ and 0.04 g·day⁻¹ in terms of prosomal width and wet weight, respectively. A positive growth allometry (b coefficient=2.97) was identified, indicating that weight gain for T. tridentatus, and possibly C. rotundicauda, was faster than prosomal width growth after each ecdysis. The effect of temperature on growth was also determined by comparing the percentages of T. tridentatus which molted at ∼28 °C and ∼18 °C. Fifty percent of individuals molted at the former, but only 10% at the latter. This study indicates that Hong Kong horseshoe crabs take a shorter time to reach sexual maturity, as compared with conspecifics in Japan, because they can molt more frequently at higher sediment/water temperatures (∼28 °C) if food is available.     

Regeneration of whole plants from protoplasts isolated from tissue-cultured shoot primordia of garlic (Allium sativum L.)

Protoplasts derived from tissue-cultured shoot primordia of garlic (Allium sativum L.) initiated successive cell divisions within 4 days and formed small individual calli (0.2mm in diameter) after 5 weeks of culture on Gamborg's B5 medium supplemented with 0.1% casein hydrolysate, 1mg/1 1-naphthaleneacetic acid and 1mg/1 6-benzylaminopurine. Plating efficiency was roughly 5% at the density of 1x10⁴ protoplasts/ml of medium. Adventitious buds developed from the calli during subsequent subculture on Gamborg's B5 medium supplemented with 40mg/l adenine and 10% coconut milk. When transferred to the same medium without supplements, these buds grew into shoots and rooted. The regenerated garlic plantlets were successfully transferred to the greenhouse and grew into whole plants.     

Stage-specific antigens of Nematospiroides dubius Baylis, 1926 (Nematoda: Heligmosomides)

Antigens were identified from Nematospiroides dubius recovered from outbred Quackenbush mice between 4 and 10 days postinoculation (PI). Parasite surface proteins were radioiodinated and extracts of the whole worms were separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, transferred to nitrocellulose, and reacted with normal and immune mouse sera followed by an avidin-biotin-peroxidase assay. Antigens ranged between 250,000 and 20,000 molecular weight (MW). A major surface antigen, 60,000 MW, which appeared to be a complex of different antigens, and a 250,000-MW internal antigen were found on fourth-stage (L4) and fifth-stage (L5) larvae 5-10 days PI but not earlier. A group of minor surface antigens (24,000-30,000 MW) were also expressed as larvae molted from L4 to L5, 6 and 7 days PI, but they differed from antigens of similar MW expressed by adult worms. An antigen, 45,000 MW, was detected in worms 5-10 days PI, but it was only expressed on the surface of L5 worms 9 and 10 days PI. We suggest that the antigen(s) common to adults and larvae may account for protective immunity.     

Influence of Dimilin on a microsporidian infection in the gypsy moth Lymantria dispar (L.) (Lepidoptera: Lymantriidae)

Bioassay studies were conducted to investigate the influence of Dimilin (diflubenzuron), a chitinsynthetase inhibitor used for insecticidal control of the gypsy moth, Lymantria dispar, on the development and viability of a microsporidian pathogen of L. dispar. Before or after an infection with a Nosema species, L. dispar larvae were fed Dimilin in sublethal dosages. Dimilin fed to L. dispar larvae at 0.65 ng/cm² diet surface resulted in a total larval mortality of 53%. Although the microsporidian infection alone did not cause high mortality rates (9%), mortality increased to 96% when L. dispar larvae were inoculated with both Dimilin and Nosema spores. When Dimilin was fed to the larvae 24 h before or 6 days after inoculation with the microsporidium, the number of mature spores produced was significantly reduced. When Dimilin was fed to the larvae 24 h after microsporidian inoculation, the number of spores produced was not significantly reduced. Spores that were produced in larvae after Dimilin had been ingested with the diet were less infectious than spores produced in control larvae; the experimental infection rate decreased from 94% when spores obtained from control larvae were used, to 48 or 10% when spores obtained from larvae fed Dimilin 24 h or 6 days after Nosema inoculation, respectively, were used. Mature microsporidian spores washed in Dimilin solution prior to oral inoculation, however, were as infectious as spores stored in liquid nitrogen. We have shown that Dimilin interferes with the establishment of the parasite in its host. In addition, when Nosema sp. succeeds in infecting the L. dispar host despite treatment with Dimilin, the microsporidium does not develop optimally and spore production is reduced.     

Anopheles stephensi and Toxorhynchites amboinensis: aseptic rearing of mosquito larvae on cultured cells

Aseptic larvae of Anopheles stephensi and Toxorhynchites amboinensis were reared on a continuous cell line (RU TAE 12 V) from the mosquito, T. amboinensis, that grew in suspension as multicellular vesicles. Surface-sterilized eggs were hatched in a 24-well plate containing 0.2 ml of Leibovitz's L-15 medium per well and incubated in a humidified atmosphere. Toxorhynchites amboinensis eggs of 36 hr or older were placed singly to assure hatching and avoid cannibalism. Hatching rates were over 80%. All larval instars were maintained in L-15 medium at 28 C with a 12-hr photoperiod. Anopheles stephensi larvae were reared in 25-cm2 tissue culture flasks containing 10 ml of L-15 medium with 30 to 50 first and second instar larvae or 10 third and fourth instar larvae per flask. Toxorhynchites amboinensis larvae remained in the 24-well plate in 1.5 ml of medium through the second instar; third instar larvae were kept in 12-well plates (3 ml of medium per well) and transferred to 25-cm2 flasks (10 ml per flask) when they reached the fourth instar. First and second instar A. stephensi larvae were fed cultured cells once, and third or fourth instar larvae twice a day. Toxorhynchites amboinensis larvae were fed vesicles once during the first 4 days after hatching, and every 1 or 2 days thereafter. Each A. stephensi larva consumed approximately 2 X 10(6) cells, and T. amboinensis larvae 10 times more cells before pupating. Anopheles stephensi pupated after 7 to 8 days and adults emerged during days 9 to 11. Pupation in T. amboinensis began on day 21 after hatching and adults emerged 5 days later. Cell lines isolated from A. stephensi larvae or embryos of the ticks Rhipicephalus sanguineus and Anocentor (Dermacentor) nitens supported only limited growth of A. stephensi larvae. Defibrinated hamster (Mesocricetus auratus) blood, though readily ingested, did not support the growth of A. stephensi whereas larvae reared on blood cells plus T. amboinensis cells showed limited growth.