Cartesian representation of stimulus direction: Parallel processing by two sets of giant interneurons in the cockroach

The cockroachPeriplaneta americana responds to wind puffs by turning away, both on the ground and when flying. While on the ground, the ventral giant interneurons (ventrals) encode the wind direction and specify turn direction, whereas while flying the dorsal giant interneurons (dorsals) appear to do so. We report here on responses of these cells to controlled wind stimuli of different directions. Using improved methods of wind stimulation and of positioning the animal revealed important principles of organization not previously observed.All six cells of largest axonal diameter on each side respond preferentially to ipsilateral winds. One of these cells, previously thought to respond non-directionally (giant interneuron 2), was found to have a restricted directional response (Fig. 3). The organization of directional coding among the ventral giant interneurons is nearly identical to that among the dorsals (Fig. 2). Each group contains, on each side, one cell that responds primarily to wind from the ipsilateral front, another primarily in the ipsilateral rear, and a third responding more broadly to ipsilateral front and rear.These results are discussed in terms of the mechanisms of directional localization by the assembly of giant interneurons.Abbreviations GI giant interneuron - vGI ventral giant interneuron - dGI dorsal giant interneuron - CF 5-carboxyfluorescein - A6 6th abdominal ganglion - TI thoracic interneuron - BED best excitatory direction     

Cell-free synthesis of membrane proteins: Tailored cell models out of microsomes

Incorporation of proteins in biomimetic giant unilamellar vesicles (GUVs) is one of the hallmarks towards cell models in which we strive to obtain a better mechanistic understanding of the manifold cellular processes. The reconstruction of transmembrane proteins, like receptors or channels, into GUVs is a special challenge. This procedure is essential to make these proteins accessible to further functional investigation. Here we describe a strategy combining two approaches: cell-free eukaryotic protein expression for protein integration and GUV formation to prepare biomimetic cell models. The cell-free protein expression system in this study is based on insect lysates, which provide endoplasmic reticulum derived vesicles named microsomes. It enables signal-induced translocation and posttranslational modification of de novo synthesized membrane proteins. Combining these microsomes with synthetic lipids within the electroswelling process allowed for the rapid generation of giant proteo-liposomes of up to 50 μm in diameter. We incorporated various fluorescent protein-labeled membrane proteins into GUVs (the prenylated membrane anchor CAAX, the heparin-binding epithelial growth factor like factor Hb-EGF, the endothelin receptor ETB, the chemokine receptor CXCR4) and thus presented insect microsomes as functional modules for proteo-GUV formation. Single-molecule fluorescence microscopy was applied to detect and further characterize the proteins in the GUV membrane. To extend the options in the tailoring cell models toolbox, we synthesized two different membrane proteins sequentially in the same microsome. Additionally, we introduced biotinylated lipids to specifically immobilize proteo-GUVs on streptavidin-coated surfaces. We envision this achievement as an important first step toward systematic protein studies on technical surfaces.     

野化培训大熊猫采食和人为砍伐对拐棍竹无性系种群更新的影响

亚高山竹类占据着野生大熊猫(Ailuropoda melanoleuca)食物组分的99%,竹子的生命周期与大熊猫的生活史密切相关,竹子的更新和生长直接影响着大熊猫的生存与保护.为了弄清大熊猫的采食利用和人为砍伐是否促进或制约竹子的繁殖更新,应用样方法、定位观察法,连续研究了卧龙自然保护区大熊猫栖息地内野化培训大熊猫采食、人为砍伐和对照样方中拐棍竹无性系种群的更新动态.结果表明,在相同种群数量和环境条件的基础上(p>0.05),被大熊猫采食竹子的比例为67.07%,致死率29.07%;人为砍伐竹子的比例为65.67%,致死率46.68%,可见与大熊猫采食相比,砍伐更为影响拐棍竹种群的生存.从出笋数量来看,不同处理方式有利于拐棍竹无性系种群的更新(p<0.05),尤其是人为砍伐措施大大提高了竹子的出笋率,但人为砍伐样方的竹笋质量(地径和株高生长)却远低于大熊猫采食和对照样方,未能达到大熊猫觅食的选择利用标准.不同年份之间,各种处理方式下的拐棍竹出笋数量波动较大(p=0.006～0.035),并随着恢复时间的延长,逐渐趋于相似(2007,p=0 825).不同处理方式之间,拐棍竹无性系种群的年补充率,各年份均具有显著性差异(p<0.05,除2007年外),年死亡率仅2003年和2004年有明显的差异(p<0.05),2005～2007年均不显著(p>0.05).拐棍竹无性系种群的年补充率与年死亡率之间表现出年补充率﹥年死亡率的格局(p<0.05),唯有大熊猫采食样方的2004年和2005年、人为砍伐和对照样方的2005年的年死亡率略高于年补充率(p>0.05),这表明拐棍竹无性系种群对大熊猫采食和人为砍伐具有无性系整合的补偿效应.     

大熊猫初生胎儿及幼仔组织器官的病理学研究

To elucidate the cause of prenatal and early postnatal death in giant panda, pathological studies have been carried out on paraffin-fixed tissue sections from two fetuses and four cubs. The fetuses appeared to have classical atrophic changes in lung and hemorrhage in multiple organs, whereas the cubs showed purulent inflmnmation in various organs, most profound in lung and umbilicus. Localized infusion of bacteria and neutrophils were identified in the focus. Acute enteritis and hepatitis were also observed, as well as purulent encephalitis in one case. Variable degrees of congestion, hemorrhage, denaturalization and putrescence were evident in heart, liver, spleen, kidney, intestines, and lymph nodes. The results indicated that the fetuses died from suffocation whereas the cubs died from infection.     

大熊猫粪便宽径与咬节平均长度的关系

粪便咬节是大熊猫数量调查中最常用的指标。然而,大熊猫在主食竹叶的季节有时在粪便中未留下咬节而使数量调查难以进行。为此,本文对大熊猫粪便宽径与咬节平均长度的关系进行了初步探讨。结果表明,大熊猫粪便宽径呈正态分布,同一个体的含咬节粪便与全由竹叶组成的粪便在宽径上无显著差异。大熊猫咬节平均长度与粪便宽径存在显著的回归关系。在不考虑年龄的情况下,粪便咬节平均长度与粪便宽径的回归方程为:Y=0.38X十14.40。成体和亚成体组的粪便咬节平均长度与粪便宽径的回归方程为:Y=0.22 X+22.79。年龄对大熊猫粪便咬节平均长度与粪便宽径的回归关系有显著影响。     

中国林蛙蝌蚪和大蟾蜍蝌蚪的最适温度、逃避温度及致死温度

报道了中国林蛙蝌蚪 (Ranachensinensis)和大蟾蜍蝌蚪 (Bufogargarizans)在不同驯化温度下的最适温度、逃避温度和致死温度的研究结果。将中国林蛙蝌蚪和大蟾蜍蝌蚪分别在 5、1 5和 2 5℃ 3个不同温度下驯养 3周 ,利用温度梯度装置观察记录 2种蝌蚪的最适温度、逃避温度和最高致死温度。结果表明 ,经过在 5、1 5和 2 5℃ 3个温度下的驯化 ,中国林蛙蝌蚪的最适温度范围分别为 1 3 . 5～ 1 8℃、2 0. 5～2 5℃和 2 3～ 2 7. 5℃ ;大蟾蜍蝌蚪的最适温度范围分别为 1 2～ 1 6 .5℃、2 1～ 2 5. 5℃和 2 2～ 2 6. 5℃。中国林蛙蝌蚪和大蟾蜍蝌蚪的最高致死温均在 3 7～ 3 8℃之间 ,最低致死温均为 0℃。驯化温度对最适温度影响显著 (P <0 .0 1 ) ,对致死温度则没有显著影响。驯化温度对中国林蛙蝌蚪和大蟾蜍蝌蚪的逃避温度产生的影响比最适温度的大。     

黄龙大熊猫种群数量及年龄结构调查

１９９６年６￣１０月,在野外采用路线－聚类法对黄龙寺自然保护区内大熊猫种群数量进行了调查。结果表明：保护区内现有大熊猫２３只,竹林内生态密度为０．４３９只／ｋｍ＾２。此外,首次采用了离差平方和聚类的方法,将该种群划分为４个年龄组。其中幼年组个体上占１３．３３％,青年组个体占６．６７％,成年组个体占６０％,老年组个体占２０％。最后还对结果进行了讨论。并提出了保护措施。     

圈养大熊猫野化培训期的生境选择特征

大熊猫(Ailuropoda melanoleuca)是我国特有的珍稀物种,也是世界上最濒危的野生动物之一。为了将人工繁育的部分大熊猫个体重引入其历史分布区或复壮野生种群,中国保护大熊猫研究中心从2003年开始进行圈养大熊猫的野外放归工作,通过野化培训以提高圈养大熊猫适应和选择野外环境的能力。对野化培训大熊猫"淘淘"的生境选择研究表明:该野化培训大熊猫幼仔经常活动于新笋密度较大的区域[生境与对照:(2.68±1.14)对(1.58±0.66)],却避开成竹密度过大[(9.91±2.51)对(12.18±4.68)]、竹子较高[(4.57±1.09) m对(4.98±0.66) m]以及枯死竹过多[(2.52±0.86)对(3.39±1.33)]的区域;喜欢活动于离水源[(1.59±0.67)对(2.19±0.87)]和隐蔽场所较近[(5.37±2.14) m对(8.35±7.76)m],以及距离乔木较远[(3.09±0.69) m对(2.70±0.42) m]和郁闭度较低[(1.85±0.57)对(2.10±0.47)]的区域(P < 0.05),新笋密度大小是该栖息地在整个野化培训期间是否被利用的最重要因素。该野化培训大熊猫幼仔保持着与带仔母兽相近的生境选择特征,对竹子环境的选择也与卧龙野生大熊猫相似,野化培训对该大熊猫幼仔产生了积极的作用。野化培训大熊猫幼仔形成的家域和核域面积分别为9.21 hm² 和1.93 hm²,占野化培训圈面积的51.95%和10.89%,其中家域面积仅有卧龙野生大熊猫的1.4%-2.4%,所以在以后的野化培训过程中需要采取增加野化培训圈中环境丰富度等方式,促进野化培训大熊猫形成较大的家域面积。     

A reliable, non-invasive PCR method for giant panda (Ailuropoda melanoleuca) sex identification

We developed an inexpensive, fast and reliable PCR method for sex identification of giant panda (Ailuropoda melanoleuca) by using one pair of primers to co-amplify homologous fragments with size polymorphism that located at amelogenin (AMEL) exon 5. In giant panda, a 63 bp deletion in exon 5 of Y-linked allele provides a significant discrimination between AMELX and AMELY, thus the amplification products can be distinguished simply by agarose gel electrophoresis, exhibiting sex-specific banding patterns (male: 237 bp, 174 bp; female: 237 bp). Both blood and feces samples from known-sex giant pandas were successfully amplified. Cross species test also revealed that this method could be applied to other Ursidae species. These authors contributed equally to this work.