Samui, a novel cold-inducible gene, encoding a protein with a BAG domain similar to silencer of death domains (SODD/BAG-4), isolated from Bombyx diapause eggs.

Cellular responses to cold-acclimation have not yet been studied in depth. To explore this field, we focussed on insect diapause development. Although embryonic diapause of Bombyx mori is sustained at 25 degrees C, chilling at 5 degrees C for 2 months causes diapause termination, a transition that is marked when the sorbitol dehydrogenase gene (SDH) is activated. To clarify the relationship between this activation and incubation at 5 degrees C, we isolated a novel cold-inducible gene, Samui. Expression of Samui mRNA and protein was activated after incubation at 5 degrees C for 5-6 days, lasted for another 30 days and then weakened. Exposure to 25 degrees C suppressed both mRNA and protein expression. In nondiapause eggs incubated at 5 degrees C, Samui was also up-regulated, although the expression was weaker. Samui contained nuclear localization-signals, a ssDNA-binding motif and a BAG domain similar to that of SODD/BAG-4. Because Samui could bind to HSP70, it is a member of BAG protein family. It is proposed that Samui serves to transmit the '5 degrees C signal' for SDH expression in diapause eggs, while also protecting against cold-injures in nondiapause eggs, through binding to respective partners. This is the first report that a member of BAG protein family is up-regulated by cold.     

Cloning of cDNAs encoding sorbitol dehydrogenase-2a and b, enzymatic characterization, and up-regulated expression of the genes in Bombyx mori diapause eggs exposed to 5 °C

We previously cloned a cDNA for sorbitol dehydrogenase (SDH1) from Bombyx mori. In the present study we cloned two additional cDNAs encoding SDHs (designated as SDH2a and SDH2b). The amino acid sequences of SDH2ab were almost the same and had higher similarity to the SDHs of other organisms than to B. mori SDH1. The SDH2ab and SDH1genes were located in tandem within about 40 kbp on chromosome 21. SDH2ab mRNAs increased after exposing diapause eggs to 5 °C for 40 days, beginning at 2 days post-oviposition, to break diapause. However, they were at very low levels in diapausing eggs incubated at 25 °C continuously from oviposition. These changes in expression pattern of SDH2ab mRNA were almost the same as that of SDH1 mRNA. To understand whether SDH1 and SDH2 were responsible for the SDH activity seen in diapause eggs exposed to 5 °C for more than 60 days, we expressed a His-tagged SDH2a fusion protein in Escherichia coli and examined its enzymatic parameters. The maximum activity of SDH2a observed at pH 8.4∼9.0, and the Km value for sorbitol was 12.6 mM, similar to the kinetic properties of other SDHs. Due to the significantly higher similarity between SDH2a and b, they were thought to have similar kinetic properties. Therefore, we purified SDH from B. mori diapause-terminated eggs exposed to 5 °C for 300 days which showed higher SDH activity using two-step affinity chromatography. The highly purified SDH showed a higher Km value (125 mM) for sorbitol, being similar to the value (136 mM) determined previously from Eadie-Hofstee plots using egg crude extract as an enzyme source; additionally, the plots showed one slope indicating one Km value. Moreover, in silico analysis indicated that no SDH genes other than SDH1 and 2ab are present in B. mori genomic DNA. These results suggest that SDH1 activity may be responsible for the majority of the increased SDH activity seen in diapause eggs after acclimation to 5 °C rather than SDH2ab. Further, the relative sequence divergence among these genes is consistent with the idea/hypothesis that the original SDH gene was first duplicated into SDH1 and SDH2, and then SDH2 was duplicated into the SDH2a and SDH2b genes.     

Temperature-dependent activation of ERK/MAPK in yolk cells and its role in embryonic diapause termination in the silkworm Bombyx mori

The silkworm Bombyx mori requires 2-3 months of low temperature (5 degrees C) to terminate embryonic diapause. The molecular mechanisms, however, are unknown. Extracellular signal-regulated kinase (ERK)/mitogen-activated protein kinase (MAPK) is temperature-dependently activated in the yolk cells of diapausing eggs after 45 days at 5 degrees C, coincident with the acquisition of developmental competence of the embryos at 25 degrees C. Yolk cell granulation and dissociation also begin in diapause eggs incubated at 5 degrees C for 45 days. We used dechorionated egg culture as a model system of diapause termination and observed that both yolk cell dissociation and embryonic development are inhibited by MAPK-ERK kinase (MEK) inhibitor U0126. Therefore, we suggest that ERK in yolk cells has a role in regulating changes in yolk morphology and termination of embryonic diapause in B. mori.     

家蚕生殖细胞相关基因nanos的克隆表达及在胚胎发育中的表达模式

【目的】探讨nanos基因在家蚕Bombyx mori胚胎发育中的表达模式,为进一步研究该基因在家蚕胚胎发育中的功能奠定基础。【方法】根据本实验室提交到GenBank中家蚕nanos的cDNA序列(登录号EF647589)设计引物,扩增出了一条长684 bp的编码片段,对该片段进行了克隆和表达,亲和纯化表达的蛋白并免疫新西兰大白兔制备抗体。Western blot检测家蚕早期胚胎nanos的表达情况,荧光定量PCR检测nanos在整个家蚕胚胎发育中的表达情况。【结果】克隆并表达了一条长684 bp的编码片段,得到了分子量约33 kD的融合蛋白。用制备的抗血清对家蚕早期胚胎蛋白的Western blot检测表明,nanos在此阶段基本是恒定表达。荧光定量PCR结果显示刚产的卵中nanos的表达量最大,第2天开始急剧下降,此后到第10天表达量几乎没有变化。【结论】本实验克隆的nanos是家蚕中的一个同源物,该基因在家蚕胚胎发育中的表达模式与蜜蜂等有很大的不同,反映了昆虫生殖细胞形成机制的多样性。     

Distinct effects of different low temperatures on the induction of NAD-sorbitol dehydrogenase activity in diapause eggs of the silkworm,Bombyx mori

Summary Diapause eggs of the silkworm, Bombyx mori, exposed to 5°C and 0.5°C from 2 or 30 days after oviposition, were examined for changes in contents of glycogen, sorbitol and glycerol. Cold acclimation did not alter the profile of accumulation of sorbitol from that in eggs kept continuously at 25°C. However, acclimation at 5°C resulted in conversion of sorbitol to glycogen, while acclimation at 0.5°C was not accompanied by the utilization of sorbitol. NAD-sorbitol dehydrogenase (NAD-SDH; EC 1.1.1.14) activity was examined in the cold-acclimated eggs. The activity was induced by acclimation at 5°C but not at 0.5°C. Incubation at 0.5°C suppressed any further increase in the activity that had been induced. Temperature-directed changes in NAD-SDH activity paralleled those in sorbitol content. Hatching of the diapause eggs was monitored after cold acclimation for various periods of time and subsequent transfer to 25°C. Incubation at 0.5°C was less effective than 5°C at breaking diapause. The time required for the eggs to hatch in synchrony after acclimation at 5°C coincided with that required for the induction of NAD-SDH activity. These results show that different effects result from acclimation at 5°C and near 0°C with respect to the control of NAD-SDH activity, that utilization of sorbitol is controlled by NAD-SDH activity, and that induction of this activity is temperature-dependent. Furthermore, induction of NAD-SDH activity is involved in the termination of diapause in B. mori.Abbreviations DH diapause hormone - NAD nicotinamide-adenine-dinucleotide - NAD-SDH NAD-sorbitol-dehydrogenase     

Demarcation of diapause development by cold and its relation to time-interval activation of TIME-ATPase in eggs of the silkworm, Bombyx mori

We investigated the mode of action of winter cold in the termination of diapause by investigating Time-Interval-Measuring Enzyme (TIME). First, we determined the period of cold required for the completion of diapause development. Synchronously developing egg batches of a pure strain (C108 Bombyx mori silkworm) were used to minimize variations in hatching time. Hatching occurred with only 18 days chilling at 5 degrees C when the incubation at 25 degrees C after the chilling was elongated. The 18-day period was much shorter than we expected; diapause in B. mori is known to terminate completely with about 100 days of chilling. Even in such a short period of chilling, no sporadic hatching occurred. Moreover, we determined that a temperature-insensitive stage, which we called "Neboke", followed the short cold-requiring stage. Thus, the stage of diapause development was demarcated from other stages of diapause. While the length of diapause development was elongated when chilling was delayed after oviposition, the Neboke stage length was invariant. Cold evidently exerts its effect only on diapause development. When TIME was purified from eggs and chilled in test tubes, a transitory burst of its ATPase activity occurred at a time equivalent to shortly before the completion of diapause development; this was an interval-timer activation. The mechanism by which cold activates TIME to measure the time interval may help explain in biochemical terms the insect's adaptation to its seasonal environments.     

The peptide PIN changes the timing of transitory burst activation of timer-ATPase TIME in accordance with diapause development in eggs of the silkworm, Bombyx mori

TIME is an ATPase that measures a time interval by exhibiting transitory burst activation in eggs of the silkworm, Bombyx mori L. PIN is a peptide that regulates the time measurement of TIME. To address the mode of action of PIN, interactions between TIME and PIN were investigated. First, TIME was mixed with PIN for various periods (days) at 25 degrees C. The longer TIME was mixed with PIN, the later the transitory burst activation of TIME ATPase activity occurred, while no such delay occurred at 5 degrees C. Second, the capacity of PIN to bind with TIME was measured at the two temperatures by fluorescence polarization. The binding interaction was much tighter (nearly 1000 times) at 25 degrees C than that at 4 degrees C. Because the log EC50 (in nM) at 4 degrees C was about 7, PIN must dissociate from TIME at low temperatures at the physiological concentration of TIME in eggs. Thus, TIME appears to be restructured into a time-measuring conformation by PIN at the high temperatures of summer, whereas the TIME-PIN complex would dissociate at the low temperatures of winter. This dissociation acts as the preliminary cue for the ATPase activity burst of TIME, which in turn causes the completion of diapause development and initiates new developmental programs.     

Oxygen consumption in relation to sorbitol utilization at the termination of diapause in eggs of the silkworm,Bombyx mori

Rates of oxygen consumption were followed throughout the entire period of diapause in eggs of Bombyx mori. In non-diapause eggs at 25 degrees C, O(2) uptake was divisible into three phases, corresponding to morphogenetic processes. In diapause eggs at 25 degrees C, O(2) uptake showed a peak (100 &mgr;l/g eggs/h) at 1 day and then suddenly dropped to reach a level of 8-10 &mgr;l/g eggs/h at 10 days and thereafter. To break diapause, eggs were exposed to 5 degrees C for varying periods. When O(2) uptake was measured at 5 degrees C, it remained at 6 &mgr;l/g eggs/h. When eggs were chilled for increasing periods and O(2) uptake was measured immediately after warming to 25 degrees C, the rates increased after a lag phase. In HCl-treated eggs, O(2) uptake increased immediately after acid-treatment. In all cases, highly increasing O(2) uptake at 25 degrees C coincided with termination of diapause. These results were discussed in relation to sorbitol utilization at the termination of diapause.     

Activity of NAD-sorbitol dehydrogenase is caused by biosynthesis of enzyme protein in diapause and non-diapause eggs of the silkworm,Bombyx mori

• 1.1. Using SDS-PAGE and immunoblotting analyses with anti-sorbitol dehydeogenase (EC 1.1.1.14, SDH) serum, changes in amount of SDH protein were examined in diapause and non-diapause eggs of the silkworm, Bombyx mori.
• 2.2. When diapause eggs were exposed to 5°C from 2 days after oviposition to break the diapause gradually, SDH protein appeared after 50-day chilling, and then the amount increased along with chilling period. This changing pattern paralleled that in SDH activity.
• 3.3. In diapause eggs treated with HCl after chilling at 5°C for 30 days to break the diapause quickly, and non-diapause eggs, changing patterns in amount of SDH protein also paralleled those in SDH activity.
• 4.4. These results showed that SDH activity was caused by biosynthesis of SDH protein, independent of diapause or non-diapause eggs.
• 5.5. Occurrence of SDH correlates with the three developmental phases: diapause termination, embryonic growth, and larval differentiation. In larva, SDH was mainly localized in the fat-body.

     

低温冷藏提高家蚕滞育卵NAD含量和胞质苹果酸脱氢酶活性

为了调查5℃低温处理是否改变家蚕Bombyx mori卵滞育NAD代谢, 本研究利用HPLC和分光光度法测定了经25℃和5℃分别处理的滞育卵中NADH 含量、 NAD⁺含量、 乳酸脱氢酶（LDH）活性和胞质苹果酸脱氢酶（cMDH）活性。结果表明： 5℃处理的NAD（NADH + NAD⁺）含量和cMDH活性分别增加了106%和53%, 并且显著高于25℃处理（P< 0.01）; 但是两种处理的NADH/NAD⁺比值和LDH活性没有显著差异（P> 0.05）。据此推测, 5℃低温处理加强了家蚕滞育卵NAD⁺合成和再生能力。     

Phosphorylation of Rab proteins from the brain of Bombyx mori

Rab proteins play fundamental roles in the regulation of membrane traffic. Previously, from the brain of Bombyx mori we isolated two cDNA clones (BRab1 and BRab14), each of which encoded a different member of Rab-protein family and was expressed in Escherichia coli and purified using an affinity chromatography. In this study, one cDNA clone (BRab8) was isolated from a cDNA library from the brain of B. mori. The recombinant protein was expressed in E. coli and purified. Next, the phosphorylations of these three purified BRab proteins were examined, using mammalian protein kinases in vitro. Protein kinase C (PKC) phosphorylated BRab8 and BRab14 proteins. Protein kinase A faintly phosphorylated BRab8 and BRab14 proteins. Calcium/calmodulin-dependent protein kinase faintly phosphorylated BRab8 protein. Next, brains of B. mori were dissected and homogenized. The homogenate showed a calcium-dependent protein kinase activity of BRab8 and BRab14 proteins. So PKC from the brain of B. mori was partially purified by a sequence of chromatographies on DEAE-Cellulofine and affinity chromatography. This PKC phosphorylated BRab8 and BRab14 proteins. These results suggest that the function of Rab proteins in the brain of B. mori is regulated by calcium-dependent protein kinases.     

Entomogenous fungus Nomuraea rileyi inhibits host insect molting by C22-oxidizing inactivation of hemolymph ecdysteroids

The entomogenous fungus Nomuraea rileyi reportedly secretes a proteinaceous substance inhibiting larval molt and metamorphosis in the silkworm Bombyx mori. We studied the possibility that N. rileyi controls B. mori development by inactivating hemolymph molting hormone, ecdysteroids. Incubation of ecdysone (E) and 20-hydroxyecdysone (20E) in fungal-conditioned medium resulted in their rapid modification into products with longer retention times in reverse-phase HPLC. Each modified product from E and 20E was purified by HPLC, and identified by NMR as 22-dehydroecdysone and 22-dehydro-20-hydroxyecdysone. Some other ecdysteroids with a hydroxyl group at position C22 were also modified. Injection of the fungal-conditioned medium into Bombyx mori larvae in the mid-4th instar inhibited larval molt but induced precocious pupal metamorphosis, and its injection into 5th instar larvae just after gut purge blocked pupal metamorphosis. In hemolymph of injected larvae, E and 20E disappeared and, in turn, 22-dehydroecdysone and 22-dehydro-20-hydroxyecdysone accumulated. These results indicate that N. rileyi secretes a specific enzyme that oxidizes the hydroxyl group at position C22 of hemolymph ecdysteroids and prevents molting in B. mori larvae.     

Behavior of silkworm yolk protein on phospholipid membranes

During early development, the plasma membrane of silkworm (Bombyx mori) eggs undergoes a superficial cleavage that separates the blastodermal protoplasm and the yolk. To test whether the blastoderm absorbs yolk through the plasma membrane in B. mori, we studied the interaction of phospholipid membranes and yolk using a phospholipid planar bilayer membrane (PBM) and liposomes. In addition, egg-specific protein (ESP; 225 kDa), a yolk protein that is specific to B. mori eggs, was collected by fractionating the eggs. Liposomes were mixed with either B. mori yolk or ESP, and observed under an electron microscope. This showed that the phospholipid membrane was spanned by fine particles 10-20 nm in diameter. Both yolk and ESP caused the PBM to become extraordinarily leaky, with a membrane potential of -70 mV for yolk and -198 mV for ESP. These results suggest that although it is a water-soluble protein, ESP permeates the phospholipid membrane without the help of enzymes.     

家蚕抗真菌因子BmSPI39对球孢白僵菌入侵的表达响应

[目的]制备家蚕Bombyx mori抗真菌因子BmSPI39的多克隆抗体,分析BmSPI39对球孢白僵菌Beauveria bassiana入侵的表达响应.[方法]利用原核表达和固定化镍离子亲和层析技术获得高纯度的BmSPI39重组蛋白,利用胶内活性染色检测重组蛋白BmSPI39对枯草杆菌Bacillus subti...     

Determination of phosphorylated amino acid residues of Rab8 from Bombyx mori

The Rab family of small GTPases are key regulators of membrane trafficking. Partially purified Rab8 from Bombyx mori (BRab8) was phosphorylated by protein kinase C in mammalian cells in vitro. To determine which of the seven serines and four threonines are phosphorylated, we generated deletion and site-directed mutants of BRab8, inserted them in Escherichia coli, partially purified the encoded fusion proteins by affinity chromatography, and examined their phosphorylation by protein kinase C in vitro. We found that Ser-132 of BRab8 was specifically phosphorylated by protein kinase C. In addition, Western blotting using an antiserum against BRab8 and in-gel staining for phosphorylated proteins revealed that BRab8 is phosphorylated in vivo.     

Artificial insemination using cryopreserved sperm in the silkworm,Bombyx mori

We report in this paper that female moths artificially inseminated with cryopreserved sperm (-196 degrees C) could oviposit eggs when the sperm was preserved for 356days, and that the fertilization rate and the number of eggs laid were almost equivalent to those obtained in normally mated moths. The optimal cooling rate for sperm freezing was 5-65 degrees C/min for maintaining a high fertility of sperm. The simple and reliable method of cryopreservation was to put the semen first in a deep freezer at -80 degrees C and thereafter put them in liquid nitrogen. When female moths of 'white 2' egg-color mutant strain were inseminated with a mixture of frozen-thawed sperm from males of normal-colored egg strain and non-frozen sperm from males of the 'white 2', female moths deposited a majority of 'white 2' eggs and a very small number of eggs of normal color. The result shows that there was a competitive fertilization of sperm between the two strains of the silkworm, and that sperm fertility was reduced to a considerable extent by freezing at -196 degrees C. These results may contribute not only to basic studies on fertilization in Lepidoptera but also to the development of long-term preservation procedure of genetic resources by using cryopreserved sperm of Bombyx mori.