Expression of a beetle, Dendroides canadensis, antifreeze protein in Drosophila melanogaster

Antifreeze protein 1 (DAFP-1), from the beetle Dendroides canadensis, was expressed in Drosophila melanogaster. Mean thermal hysteresis values (the difference between freezing and melting points), indicative of antifreeze protein activity, in the hemolymph of transgenic flies were found to be as high as 6.23+/-0.10 degrees C (using the nanoliter osmometer). Direct comparisons of the capillary and nanoliter osmometer techniques for measuring THA were made, illustrating the much higher values obtained by the latter. Transgenic Drosophila had supercooling points, both in contact with ice and not, that were slightly, but significantly, lower than wild-type controls (1.5-2.0 degrees C and 2.0-4.0 degrees C, respectively). The results indicate functionality of DAFP-1 in Drosophila melanogaster (the ability of DAFP-1 to inhibit both inoculative freezing across the cuticle and freezing initiated by endogenous ice nucleators). The much larger effects of DAFPs in inhibiting inoculative freezing and ice nucleation in Dendroides canadensis relative to the transgenic Drosophila may partially result from the lower DAFP concentrations and activities in Drosophila, however the absence of multiple types of DAFPs and absence of tissue specific expression may also contribute. Transgenic Drosophila were also able to live significantly longer than controls at 0 degrees C and 4 degrees C, indicating that DAFP-1 is able to increase cold tolerance at above freezing temperatures.     

Activation of antifreeze proteins from larvae of the beetle Dendroides canadensis

Summary Purified antifreeze proteins (AFPs) from the larvae of the beetle Dendroides canadensis do not produce the high levels of antifreeze activity seen in the hemolymph of overwintering larvae, even when the purified AFPs are assayed at very high concentrations. However, addition of certain proteins or agar (at concentrations sufficiently low that the gel state does not result) to the Dendroides AFP resulted in a 2–3-fold increase in activity. A 70-kDa protein with AFP-activating capabilities was purified from Dendroides larvae. Addition of this endogenous activator protein to a 4 mg·ml^-1 solution of AFP increased the activity of the AFPs to values comparable to those of the hemolymph of overwintering larvae. Data derived from a modified immunoblot technique demonstrate that the activators bind to the AFP, or vice versa. Formation of this association must allow the AFP to block ice crystal growth by binding to the surface of potential seed crystals in the normal fashion. However, because the AFP-activator complex is much larger than the AFP alone, the complex probably blocks a greater surface area of the crystal and is thus a more efficient antifreeze.Abbreviations AFP antifreeze protein - BSA bovine serum albumine - DEAE diethylaminoethyl - Ig immunoglubolin - LPIN lipoprotein ice nucleator - PIN protein ice nucleator - SDS sodium dodecyl sulfate - PAGE polyacrylamide gel electrophoresis - TH thermal hysteresis     

A thaumatin-like protein from larvae of the beetle Dendroides canadensis enhances the activity of antifreeze proteins

The levels of thermal hysteresis (antifreeze activity) produced by purified antifreeze proteins (DAFPs) from the larvae of the beetle Dendroides canadensis at endogenous concentrations are lower than what are present in the hemolymph of overwintering larvae. Thermal hysteresis activity of DAFPs is dependent not only on AFP concentration but also on the presence of enhancers that may be either proteins (including other hemolymph DAFPs) or low-molecular mass enhancers such as glycerol. The purpose of this study was to identify endogenous protein enhancers using yeast two-hybrid, co-immunoprecipitation, and finally the enhancement of antifreeze activity. Here we show that a thaumatin-like protein from D. canadensis, until recently known only from plants, significantly enhances the thermal hysteresis of DAFP-1 and -2. Glycerol can further this enhancement, presumably by promoting the interaction of the DAFPs and thaumatin-like protein.     

Purification and characterization of antifreeze proteins from larvae of the beetle Dendroides canadensis

Summary Four antifreeze proteins (AFPs) were purified from larvae of the beetle Dendroides canadensis. The AFPs are similar in amino acid compositions, having high contents of hydrophilic amino acids (45–55 mol%) and cysteine (16 mol% Cys). Approximately half of the Cys residues form disulfide bridges, and both the disulfide bridges and free sulfhydryls are essential for activity. The N-terminals of the AFPs are blocked. The pH optimum of the AFPs is 7.8, but major loss of activity occurred only at very high pH (12.0). The detergents SDS and Triton X-100 did not inactivate the AFPs. Circular dichroism spectra indicate the presence of both and secondary structures in the AFPs, in addition to a large random structure component.Abbreviations AFP antifreeze protein - CD circular dichroism - DTT dithiothreitol - HPLC high pressure liquid chromatography - PAGE polyacrylamide gel electrophoresis - PAS periodic acid Schiff - SDS sodium dodecyl sulfate - TFA trifluoroacetic acid     

Molecular characterization and sequencing of antifreeze proteins from larvae of the beetle Dendroides canadensis

The deduced amino acid sequences of antifreeze proteins (AFPs) from larvae of the beetle Dendroides canadensis were determined from both complementary DNAs (cDNAs) and from peptide sequencing. These consisted of proteins with a 25-residue signal peptide and mature proteins 83 (Dendroides antifreeze protein; DAFP-1) or 84 (DAFP-2) amino acids in length which differed at only two positions. Peptide sequencing yielded sequences which overlapped exactly with those of the deduced cDNA sequences of DAFP-1 and DAFP-2, while the partial sequence of another AFP (DAFP-3) matched 21 of 28 residues. Seven 12- or 13-mer repeating units are present in these antifreeze proteins with a consensus sequence consisting of: Cys-Thr-X₃-Ser-X₅-X₆-Cys-X₈-X₉-Ala-X₁₁-Thr-X₁₃, where X₃ and X₁₁ tend toward charged residues, X₅ tends toward threonine or serine, X₆ toward asparagine or aspartate, X₉ toward asparagine or lysine, and X₁₃ toward alanine in the 13-mers. The most interesting feature of these proteins is that throughout the length of the mature antifreeze proteins every sixth residue is a cysteine. These sequences are not similar to any of the known fish AFPs, but they are similar to AFPs from the beetle Tenebrio molitor. Accepted: 14 November 1997     

The role of endogenous antifreeze protein enhancers in the hemolymph thermal hysteresis activity of the beetle Dendroides canadensis

Antifreeze proteins (AFPs) lower the freezing point of water by a non-colligative mechanism, but do not lower the melting point, therefore producing a difference between the freezing and melting points termed thermal hysteresis. Thermal hysteresis activity (THA) of AFPs from overwintering larvae of the beetle Dendroides canadensis is dependent upon AFP concentration and the presence of enhancers of THA which may be either other proteins or low molecular mass enhancers. The purpose of this study was to determine the relative contributions of endogenous enhancers in winter D. canadensis hemolymph.Winter hemolymph collected over four successive winters (1997-1998 to 2000-2001) was tested. The first three of these winters were the warmest on record in this area, while December of the final year was the coldest on record. Protein and low molecular mass enhancers raised hemolymph THA 60-97% and 35-55%, respectively, based on hemolymph with peak THA for each year collected over the four successive winters. However, the hemolymph AFPs were not maximally enhanced since addition of the potent enhancer citrate (at non-physiologically high levels) resulted in large increases in THA. ¹³NMR showed that glycerol was the only low molecular mass solute present in sufficiently high concentrations in the hemolymph to function as an enhancer. Maximum THA appears to be ∼8.5 °C.     

赤翅甲抗冻蛋白基因的原核表达及蛋白生物活性检测

根据GenBank中序列人工合成赤翅甲Dendroides canadensis的抗冻蛋白基因（afp）,将其克隆到载体pGEX-4T-1上,构建融合表达的重组质粒,转化大肠杆菌 BL21并进行原核表达。通过优化表达的诱导条件和SDS-PAGE检测,证明人工合成的赤翅甲抗冻蛋白基因能够特异性地表达,并以可溶性融合蛋白形式存在,相对分子质量约为40 kD。抗冻蛋白的生物活性检测表明,赤翅甲的抗冻融合蛋白能够提高细菌的耐寒能力。     

Antifreeze proteins of the beetle Dendroides canadensis enhance one another's activities

Larvae of the beetle Dendroides canadensis produce a family of 13 antifreeze proteins (DAFPs), four of which are in the hemolymph. Antifreeze proteins lower the noncolligative freezing point of water (in the presence of ice) below the melting point, producing a difference between the freezing and melting points termed thermal hysteresis. This activity (THA) is dependent upon DAFP specific activity, concentration, and the presence of enhancers. Enhancers may be low molecular mass enhancers, such as glycerol, or other proteins. The protein enhancers complex with the DAFPs, thereby blocking a larger surface area of the potential seed ice crystal and consequently lowering the freezing point. A yeast two-hybrid screen was performed using certain hemolymph DAFPs as "bait" in an effort to identify endogenous protein enhancers. Among the positive proteins identified as interacting with the bait DAFPs, and confirmed by co-immunoprecipitation, were other DAFPs. When pure DAFPs were added to one another, those identified by the yeast two-hybrid screen as interacting with one another exhibited a synergistic enhancement of thermal hysteresis activity. In contrast, those DAFPs which the screen indicated did not interact failed to enhance one anothers' activities. DAFPs-1 and -2 interact and enhance one another. Point mutations of one of the interacting DAFPs (DAFP-2) indicated that both of the two amino acid residues that differ between DAFPs-1 and -2 were required for interaction. Glycerol enhanced the THA of the DAFPs only when DAFPs known to interact were present in the test solution. Addition of glycerol to a test solution containing only one DAFP did not produce enhancement. Therefore, glycerol enhances activity by stimulating interactions between DAFPs.     

Interaction of reduced nicotinamide adenine dinucleotide with an antifreeze protein from Dendroides canadensis: mechanistic implication of antifreeze activity enhancement

Antifreeze proteins (AFPs) found in many organisms can noncolligatively lower the freezing point of water without altering the melting point. The difference between the depressed freezing point and the melting point, termed thermal hysteresis (TH), is usually a measure of the antifreeze activity of AFPs. Certain low molecular mass molecules and proteins can further enhance the antifreeze activity of AFPs. Interaction between an enhancer and arginine is known to play an important role in enhancing the antifreeze activity of an AFP from the beetle Dendroides canadensis (DAFP-1). Here, we examined the enhancement effects of several prevalent phosphate-containing coenzymes on the antifreeze activity of DAFP-1. β-Nicotinamide adenine dinucleotide (reduced) (NADH) is identified as the most efficient enhancer of DAFP-1, which increases the antifreeze activity of DAFP-1 by around 10 times. Examination of the enhancement abilities of a series of NADH analogs and various molecular fragments of NADH reveals that the modifications of nicotinamide generate a series of highly efficient enhancers, though none as effective as NADH itself, and the whole molecular structure of NADH is necessary for its highly efficient enhancement effect. We also demonstrated a 1:1 binding between DAFP-1 and NADH. The binding was characterized by high-performance liquid chromatography (HPLC) using the gel filtration method of Hummel and Dreyer. The data analysis suggests binding between DAFP-1 and NADH with a dissociation constant in the micromolar range. Interactions between DAFP-1 and NADH are discussed along with molecular mechanisms of enhancer action.     

Expression of an insect (Dendroides canadensis) antifreeze protein in Arabidopsis thaliana results in a decrease in plant freezing temperature

Transgenic Arabidopsis thaliana plants which express genes encoding insect, Dendroides canadensis, antifreeze proteins (AFP) were produced by Agrobacterium-mediated transformation. The antifreeze protein genes, both with and without the signal peptide sequence (for protein secretion), were expressed in transformed plants. Thermal hysteresis activity (indicating the presence of active AFPs) was present in protein extracts from plants expressing both proteins and was also detected in leaf apoplast fluid from plants expressing AFPs with the signal peptide. Transgenic lines did not demonstrate improved ability to survive freezing when compared to wild-type. However, when cooled under four different regimes, transgenic lines with AFPs in the apoplast fluid froze at significantly lower temperatures than did wild-type, especially in the absence of extrinsic nucleation events.     

Polycarboxylates enhance beetle antifreeze protein activity

Antifreeze proteins (AFPs) lower the noncolligative freezing point of water in the presence of ice below the ice melting point. The temperature difference between the melting point and the noncolligative freezing point is termed thermal hysteresis (TH). The magnitude of the TH depends on the specific activity and the concentration of AFP, and the concentration of enhancers in the solution. Known enhancers are certain low molecular mass molecules and proteins. Here, we investigated a series of polycarboxylates that enhance the TH activity of an AFP from the beetle Dendroides canadensis (DAFP) using differential scanning calorimetry (DSC). Triethylenetetramine-N,N,N',N',N',N'-hexaacetate, the most efficient enhancer identified in this work, can increase the TH of DAFP by nearly 1.5 fold over than that of the published best enhancer, citrate. The Zn(2+) coordinated carboxylate results in loss of the enhancement ability of the carboxylate on antifreeze activity. There is not an additional increase in TH when a weaker enhancer is added to a stronger enhancer solution. These observations suggest that the more carboxylate groups per enhancer molecule the better the efficiency of the enhancer and that the freedom of motion of these molecules is necessary for them to serve as enhancers for AFP. The hydroxyl groups in the enhancer molecules can also positively affect their TH enhancement efficiency, though not as strongly as carboxylate groups. Mechanisms are discussed.     

Structural characteristics of a novel antifreeze protein from the longhorn beetle Rhagium inquisitor

Antifreeze proteins (AFPs) are characterized by their capacity to inhibit the growth of ice and are produced by a variety of polar fish, terrestrial arthropods and other organisms inhabiting cold environments. This capacity reflects their role as stabilizers of supercooled body fluids. The longhorn beetle Rhagium inquisitor is known to express AFPs in its body fluids. In this work we report on the primary structure and structural characteristics of a 12.8 kDa AFP from this beetle (RiAFP). It has a high capacity to evoke antifreeze activity as compared to other known insect AFPs and it is structurally unique in several aspects. In contrast to the high content of disulfide bond-formation observed in other coleopteran AFPs, RiAFP contains only a single such bond. Six internal repeat segments of a thirteen residue repeat pattern is irregularly spaced apart throughout its sequence. The central part of these repeat segments is preserved as TxTxTxT, which is effectively an expansion of the TxT ice-binding motif found in the AFPs of several known insect AFPs.     

Folding and structural characterization of highly disulfide-bonded beetle antifreeze protein produced in bacteria

The hyperactive antifreeze protein from the beetle, Tenebrio molitor, is an 8.5-kDa, threonine-rich protein containing 16 Cys residues, all of which are involved in disulfide bonds. When produced by Escherichia coli, the protein accumulated in the supernatant in an inactive, unfolded state. Its correct folding required days or weeks of oxidation at 22 or 4 degrees C, respectively, and its purification included the removal of imperfectly folded forms by reversed-phase HPLC. NMR spectroscopy was used to assess the degree of folding of each preparation. One-dimensional (1)H and two-dimensional (1)H total correlation spectroscopy spectra were particularly helpful in establishing the characteristics of the fully folded antifreeze in comparison to less well-folded forms. The recombinant antifreeze had no free -SH groups and was rapidly and completely inactivated by 10 mM DTT. It had a thermal hysteresis activity of 2.5 degrees C at a concentration of 1 mg/ml, whereas fish antifreeze proteins typically show a thermal hysteresis of approximately 1.0 degrees C at 10-20 mg/ml. The circular dichroism spectra of the beetle antifreeze had a superficial resemblance to those of alpha-helical proteins, but deconvolution of the spectra indicated the absence of alpha-helix and the presence of beta-structure and coil. NMR analysis and secondary structure predictions agree with the CD data and are consistent with a beta-helix model proposed for the antifreeze on the basis of its 12-amino-acid repeating structure and presumptive disulfide bond arrangement.     

Photoperiodic and thermal regulation of antifreeze protein levels in the beetle Dendroides canadensis

The importance of photoperiod, temperature and their interaction in controlling the seasonal pattern of haemolymph antifreeze protein levels in larvae of the beetle Dendroides canadensis was investigated. A complete photoperiodic response curve for antifreeze protein production was generated at 20°C with larvae collected in early fall. Individuals exposed to a 10-h photoperiod or less, including constant darkness, had significantly elevated antifreeze levels over those maintained in an 11-h photoperiod or more, including constant light. The critical daylength resulting in 50% population response lies between LD 11:13 and LD 10:14. This photoperiodic response was masked at sufficiently low (threshold between 15 and 10°C) and high (threshold between 25 and 30°C) temperatures. Partial photoperiodic response curves (at 17 and 25°C) obtained within this specified temperature range indicate that the position of the critical photoperiod (between 10 and 11 h) is stable while the amplitude of the response curve is temperature dependent.Experiments investigating the mechanisms controlling the spring depletion of protein antifreeze levels suggest that both photoperiod and temperature are important.The dominant response of photoperiod in the fall along with the modifying effects of temperature are considered to provide the necessary precision to assure adequate cold tolerance early in the fall and the flexibility to protect the species from yearly variation in weather conditions.     

荒漠甲虫小胸鳖甲抗冻蛋白的酵母表达及应用

昆虫抗冻蛋白(Antifreeze protein,AFP)的抗冻活性很高,可应用于生物组织和细胞的低温保存。为了在酵母中表达荒漠甲虫小胸鳖甲Microdera punctipennis抗冻蛋白Mp AFP698,并确定其在低温下的保护作用,本文通过构建真核表达载体p PIC9K-Mpafp698,转化巴斯德毕赤酵母GS115,诱导表达小胸鳖甲抗冻蛋白Mp AFP698。利用免疫印迹(Western blotting)分析Mp AFP698蛋白的特异性表达,结果显示Mpafp698基因可整合到酵母基因组中并分泌表达,且酵母自身蛋白很少分泌表达。检测抗冻蛋白的低温保护作用,结果发现,小胸鳖甲抗冻蛋白可显著改善冷冻小鼠肝脏等器官的细胞形态,降低血细胞在4℃的溶血率,提高SF9细胞冻融后的存活率。本研究表明,小胸鳖甲AFP可以在毕赤酵母中分泌表达,便于纯化,有良好的低温保护效果。     

Thermal stability properties of an antifreeze protein from the desert beetle Microdera punctipennis

An insect antifreeze protein gene Mpafp698 was cloned by the RT-PCR approach from the desert beetle Microdera punctipennis. The gene was constructed and heterogeneously expressed in Escherichia coli as fusion proteins, His-MpAFP698, glutathione S-transferase (GST)-MpAFP698, and maltose-binding protein (MBP)-MpAFP698. The thermostability and thermal hysteresis activity of these proteins were determined, with the aim of elucidating the biological characteristics of this protein. The approximate thermal hysteresis (TH) value of the purified His-MpAFP698 was 0.37 °C at 0.84 mg/ml, and maintained approximately 95.7% of the TH activity at 100 °C for 5 min. Furthermore, heat incubation showed that MBP-MpAFP698 was 10 °C more thermostable than MBP protein, indicating that MpAFP698 could, to some extent, improve the thermal stability of the fused partner MBP protein. This study suggests that MpAFP698 has a high thermal stability and could be used to improve the thermal stability of the less stable proteins by producing fusion proteins, which could be used for biotechnological purposes.