Neural inhibition sharpens auditory spatial selectivity of bat inferior collicular neurons

This study examines the role of neural inhibition in auditory spatial selectivity of inferior collicular neurons of the big brown bat, Eptesicus fuscus, using a two-tone inhibition paradigm. Two-tone inhibition decreases auditory spatial response areas but increases the slopes of directional sensitivity curves of inferior collicular neurons. Inferior collicular neurons have either directionally-selective or hemifield directional sensitivity curves. A directionally-selective curve always has a peak which is at least 50% larger than the minimum. A hemifield directional sensitivity curve rises from an ipsilateral angle by more than 50% and either reaches a plateau or declines by less than 50% over a range of contralateral angles. Two-tone inhibition does not change directionally-selective curves but changes most hemifield directional sensitivity curves into directionally-selective curves. Auditory spatial selectivity determined both with and without two-tone inhibition increases with increasing best-excitatory frequency. Sharpening of auditory spatial selectivity by two-tone inhibition is larger for neurons with smaller differences between excitatory and inhibitory best frequencies. The effect of two-tone inhibition on auditory spatial selectivity increases with increasing inhibitory tone intensity but decreases with increasing intertone interval. The implications of these findings in bat echolocation are discussed. Accepted: 18 January 2000     

Climatic effects on the distribution of ant- and bat fly-associated fungal ectoparasites (Ascomycota,Laboulbeniales)

Laboulbeniales (Ascomycota: Laboulbeniomycetes) are obligate ectoparasitic fungi of arthropods with a worldwide distribution. Their effects on host physiology and behaviour as well as their ecology have recently gained wider attention. One aspect that is virtually unknown regarding Laboulbeniales and arthropod-associated fungi in general, is how abiotic factors shape the distribution of these parasites. We used ant- and bat fly-associated Laboulbeniales to study whether climatic elements play a role in the distribution of fungal species. We collected uninfected and Laboulbeniales-infected insects belonging to three species: bat flies Nycteribia schmidlii and Penicillidia conspicua (Diptera: Nycteribiidae) and the ant Myrmica scabrinodis (Hymenoptera: Formicidae). We used climatic variables and performed statistical analyses to explain the distribution of Laboulbeniales infection. Our results show a higher likelihood of Laboulbeniales presence in habitats with low annual mean temperature and humidity, suggesting that climatic elements can considerably shape the distribution of Laboulbeniales species.     

湖南长沙发现霍氏鼠耳蝠

2021年8月分别在湖南省长沙市天心区大托站立交桥底和昭华湘江大桥底捕获2只鼠耳蝠（2♂,标本号211521和211540）,经鉴定为霍氏鼠耳蝠（Myotis horsfieldii）,为湖南省蝙蝠分布新记录物种。本次捕获标本体型中等偏小,前臂长分别为36.1 mm（211521）和33.1 mm（211540）,头体长为44.0 mm和41.2 mm,后足长（10.5 mm和10.4 mm）超过胫骨长（16.4 mm和16.2 mm）的一半,耳屏长（5.1 mm和3.8 mm）不及耳长（12.5 mm和10.0 mm）的一半;头骨狭长,颅全长15.5 mm和15.0 mm,脑颅宽7.8 mm和7.5 mm,颅骨纤弱,额骨处有明显倾斜,脑颅高于上颌骨,颧弓较细。与来自泰国和印度尼西亚的霍氏鼠耳蝠标本相比,前臂长、头体长和尾长测量数据偏小,但头骨测量数据接近。基于Cyt b基因序列的系统发育分析表明,此次捕获的鼠耳蝠标本与霍氏鼠耳蝠聚类在一起,与来自香港的霍氏鼠耳蝠样本遗传距离仅为0.9%,故确定该物种为霍氏鼠耳蝠。标本保存于广东省科学院动物研究所。     

HLA-B-associated transcript 3 (Bat3/Scythe) negatively regulates Smad phosphorylation in BMP signaling

Members of the transforming growth factor-β (TGF-β) superfamily participate in numerous biological phenomena in multiple tissues, including in cell proliferation, differentiation, and migration. TGF-β superfamily proteins therefore have prominent roles in wound healing, fibrosis, bone formation, and carcinogenesis. However, the molecular mechanisms regulating these signaling pathways are not fully understood. Here, we describe the regulation of bone morphogenic protein (BMP) signaling by Bat3 (also known as Scythe or BAG6). Bat3 overexpression in murine cell lines suppresses the activity of the Id1 promoter normally induced by BMP signaling. Conversely, Bat3 inactivation enhances the induction of direct BMP target genes, such as Id1, Smad6, and Smad7. Consequently, Bat3 deficiency accelerates the differentiation of primary osteoblasts into bone, with a concomitant increase in the bone differentiation markers Runx2, Osterix, and alkaline phosphatase. Using biochemical and cell biological analyses, we show that Bat3 inactivation sustains the C-terminal phosphorylation and nuclear localization of Smad1, 5, and 8 (Smad1/5/8), thereby enhancing biological responses to BMP treatment. At the mechanistic level, we show that Bat3 interacts with the nuclear phosphatase small C-terminal domain phosphatase (SCP) 2, which terminates BMP signaling by dephosphorylating Smad1/5/8. Notably, Bat3 enhances SCP2–Smad1 interaction only when the BMP signaling pathway is activated. Our results demonstrate that Bat3 is an important regulator of BMP signaling that functions by modulating SCP2–Smad interaction.     

菲菊头蝠回声定位信号特征及下丘神经元频率调谐

研究了菲菊头蝠自由飞行状态下的回声定位信号和下丘神经元的声反应特性。菲菊头蝠在自由飞行时发射的CF/FM型回声定位叫声含2-3个谐波,主频为105.3±1.7kHz,时程为39.5±9.6ms,脉冲间隔为73.9±16.0ms。在所记录到的159个下丘神经元中,E型(Echolocation)神经元为32.7%(52/159),其中CF1型(Constantfrequency)占11.3%(18/159),FM1型(Frequencymodulated)占20.1%(32/159),FM2型占1.3%(2/159);NE型(Nonecholocation)神经元的比例为67.3%(107/159)。这些神经元的最佳频率(Bestfrequency,BF)与记录深度之间存在线性关系(r=0.9471,P<0.01)。E型神经元的深度范围为349-1855(1027.5±351.6)μm,阈值范围为6-74(43.1±14.5)dBSPL,潜伏期范围为10.0-26.0(14.6±3.8)ms。NE型神经元的分别为93.0-1745.0(733.3±290.3)μm、2-70(36.5±23.8)dBSPL、5.0-23.0(13.5±3.7)ms。记录到的53个IC神经元的调谐曲线(Frequencytuningcurve,FTC)均为开放型,51个为单峰型,2个为双峰型。单峰型神经元中大部分为狭窄型(Q10dB>5),占70.6%(36/51),E型神经元全部为狭窄型,Q10dB为10.4±7.1(5.5-31.6),其中CF1型为18.3±11.2(5.5-31.6),FM1型为8.7±4.7(5.5-24.3),FM2型为6.9±0.3(6.7-7.1);NE型神经元既有宽阔型也有狭窄型,Q10dB为6.6±5.1(1.6-25.6)。两个双峰型FTC主、副峰分别偏向高、低频区,高频边对应的是E型神经元。     

四种前体对胀果甘草细胞悬浮培养生产甘草黄酮的调控效果评价

在胀果甘草细胞悬浮体系中加入苯丙氨酸、酪氨酸、肉桂酸和乙酸钠来研究前体对甘草细胞生产甘草黄酮的影响。结果显示,4种前体在合适的浓度下对细胞的生长没有明显的抑制作用,而且均能促进细胞内甘草黄酮的生物合成,但高浓度的肉桂酸对细胞的生长有一定的抑制作用。苯丙氨酸的最佳添加浓度为20 mg/L,酪氨酸、肉桂酸、乙酸钠的最佳添加浓度都是5 mg/L。此时,均可使培养体系的甘草黄酮产量高达100 mg/L以上,其中酪氨酸的添加使得产量高达对照的1.43倍。苯丙氨酸、肉桂酸和乙酸钠3种前体的添加时间均以第10天为宜,酪氨酸添加时间以第5天为最佳。而且,在添加苯丙氨酸和乙酸钠后的第3天收获细胞,此时细胞的生物量和甘草黄酮产量最大。此外,苯丙氨酸、乙酸钠的添加可以增加黄酮合成的关键酶之一——苯丙氨酸裂解酶的活性。酪氨酸对苯丙氨酸裂解酶影响不大,而肉桂酸的添加却导致其活性显著降低。     

Efficient inhibition of bursts by bursts in the auditory system of crickets

In crickets, auditory information about ultrasound is carried bilaterally to the brain by the AN2 neurons. The ON1 neuron provides contralateral inhibitory input to AN2, thereby enhancing bilateral contrast between the left and right AN2s, an important cue for sound localization. We examine how the structures of the spike trains of these neurons affect this inhibitory interaction. As previously shown for AN2, ON1 responds to salient peaks in stimulus amplitude with bursts of spikes. Spike bursts, but not isolated spikes, reliably signal the occurrence of specific features of the stimulus. ON1 and AN2 burst at similar times relative to the amplitude envelope of the stimulus, and bursts are more tightly time-locked to stimulus feature than the isolated spikes. As a consequence, spikes that, in the absence of contralateral inhibition, would occur within AN2 bursts are more likely to be preceded by spikes in ON1 (mainly also in bursts) than are isolated AN2 spikes. This leads to a large decrease in the burst rate of the inhibited AN2. We conclude that the match in coding properties of ON1 and AN2 allows contralateral inhibition to be most efficient for those portions of the response that carry the behaviourally relevant information, i.e. for bursts. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Occurrence of Hylonycteris underwoodi (Chiroptera,Phyllostomidae) and Thyroptera tricolor (Chiroptera,Thyropteridae) in Honduras

The geographic distributions of Hylonycteris underwoodi and Thyroptera tricolor in Honduras have been established with specimens collected more than 50 years ago. Here, we describe the occurrence of these bat species captured in the historic city of Ciudad Blanca, Gracias a Dios in northeastern Honduras.     

Description of Medwayella independencia (Siphonaptera,Stivaliidae), a new species of flea from Mindanao Island,the Philippines and their phoretic mites,and miscellaneous flea records from the Malay Archipelago

Medwayella independencia, a new species of flea, is described from the tupaiid host Urogale everetti (Thomas) from Mindanao Island, Philippines. Several other species of fleas are also recorded from the Philippines including a single male of Lentistivalius philippinensis Hastriter and Bush, 2013 (previously known only from two males), the bat fleas Thaumapsylla breviceps orientalis Smit and Thaumapsylla longiforceps Traub, a single unidentified female species of Macrostylophora Ewing collected from the murid Bullimus bagobos Mearns, and a pair of Medwayella robinsoni ssp. from Sundasciurus hoogstraali (Sanborn) from Busuanga Island, Philippines. Representatives of Medwayella Traub, 1972 and Macrostylophora have not previously been recorded from the Philippines. A key to the male sex of Medwayella is provided. Phoretic mites of the genus Psylloglyphus (family Winterschmidtiidae) were present under the abdominal sclerites of several male and female specimens of M. independencia. This is the second report of a phoretic mite on a species of Medwayella Traub. The co-evolutionary implications between phoretic mites and fleas are discussed.     

锐化蝙蝠听皮层神经元频率调谐的柱特征

用双声刺激和多管电极方法在 6只大棕蝠 (bigbrownbat,Eptesicusfuscus)的 98个神经元上研究了锐化 (sharpening)蝙蝠听皮层 (primaryauditorycortex ,AC)神经元频率调谐的柱特征。结果发现 ,电极直插在 1个电极通道内连续记录到多个神经元时 ,它们锐化频率调谐的抑制性调谐曲线或抑制区基本相似。电极与AC表面呈 45°斜向推入使其跨越多个功能柱时 ,可观察到锐化频率调谐的抑制区构成也随电极进入不同的功能柱而发生相应的改变。两种不同的电极插入方式均证明锐化AC神经元频率调谐的神经抑制呈柱状组构。这些神经元组合起来排列在同一听觉功能柱内 ,构成AC频率分析的基本功能组构单位“微频率处理器”。实验中还观察到多峰频率调谐曲线神经元 ,它们在声通讯和声定位中不同波谱区域的时间匹配中起作用。此外 ,也有理由认为多峰调谐神经元亦被用于作为复杂波谱信息的“高级调谐预处理器” ,从而极大地提高了神经元对频率分析的能力。为研究锐化频率调谐的神经抑制机制 ,用多管电极电泳γ -氨基丁酸 (γ aminobutyricacid ,GA BA)能a受体拮抗剂荷包牡丹碱 (bicuculline ,Bic)至所记录的神经元 ,发现能大部分或几乎全部取消抑制区 ,从而表明在正常情况下GABA能抑制参与构成锐化AC神经元频率调谐的抑制区 ,