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��kexue����20230818chuban��yizhoulunwendaodu2023-08-21 09:48��kexuewangbianyi | liyanScience, 18 AUG 2023, Volume 381 Issue 6659��kexue��2023nian8yue18ri��di381juan��6659qishengwuwulixueBiophysicsAlcanivorax borkumensis biofilms enhance oil degradation by interfacial tubulationbokudaoshiwanjunshengwumotongguojiemianguanhuacujinshiyoujiangjie�� zuozhe��M. PRASAD, N. OBANA et al.�� lianjie��https://www.science.org/doi/full/10.1126/science.adf3345�� zhaiyao��zaixiaohaowantingdeguochengzhong��bokudaoshiwanjunhuizaiyoudizhouweixingchengshengwumo��danzhezaijiangjieguochengzhongsuoqidezuoyongshangbuqingchu��womenfaxianliaoshengwumoxingtaidebianhuaqujueyuduishiyouxiaohaodeshiying��changshijiandebaoludaozhishutuzhuangshengwumodechuxian��tongguojiemiandeguanzhuangyingxiangyouhualiaoshiyouxiaohao��yuanweiweiliutigenzongshiwomennenggoujiangguanzhuangyujiemianxibaoyouxuzhongdejubuquexianlianxiqilai��womenyanshiliaotongguoshiyongxianzhilaidingweiquexianlaikongzhiyedibianxing��congershideyedichanshengaoxian��womenkaifaliaoyigemoxinglaijieshishengwumoxingtai��jiangweiguanhuayujiemianzhanglijiangdihexibaoshushuixingzengjialianxiqilai���� Abstract��During the consumption of alkanes, Alcanivorax borkumensis will form a biofilm around an oil droplet, but the role this plays during degradation remains unclear. We identified a shift in biofilm morphology that depends on adaptation to oil consumption: Longer exposure leads to the appearance of dendritic biofilms optimized for oil consumption effected through tubulation of the interface. In situ microfluidic tracking enabled us to correlate tubulation to localized defects in the interfacial cell ordering. We demonstrate control over droplet deformation by using confinement to position defects, inducing dimpling in the droplets. We developed a model that elucidates biofilm morphology, linking tubulation to decreased interfacial tension and increased cell hydrophobicity.tiantiwulixueAstrophysicsA massive helium star with a sufficiently strong magnetic field to form a magnetaryouzugouqiangcichangxingchengcixingdedazhilianghaihengxing�� zuozhe��TOMER SHENAR, GREGG A. WADE, PABLO MARCHANT et al.�� lianjie��https://www.science.org/doi/full/10.1126/science.ade3293�� zhaiyao��cixingshigaoducihuadezhongzixing��danxingchengjizhishangbuqingchu��guangpuyifashexianweizhudefuhaihengxing��beichengweiwoerfu-layexing��womenyongguangpupianzhenfaguanceliaoshuangxingxitongHD 45166��bingliyongdanganshujuzhongxinfenxiliaotadeguidao��womenfaxiangaixingxizhongyouyikewoerfu-layexing��qizhiliangshitaiyangde2bei��cichangwei43qiangaosi��hengxingyanhuajisuanbiaoming��zhekexingjiangbaozhachengweiyikechaoxinxing��ertadecichangqiangdadaozuyirangchaoxinxingliuxiacixingyiji��womentichucihuadewoerfu-layexingshiyouliangkedizhilianghaihengxinghebingxingchengde���� Abstract��Magnetars are highly magnetized neutron stars, the formation mechanism of which is unknown. Hot helium-rich stars with spectra dominated by emission lines are known as Wolf-Rayet stars. We observed the binary system HD 45166 using spectropolarimetry and reanalyzed its orbit using archival data. We found that the system contains a Wolf-Rayet star with a mass of 2 solar masses and a magnetic field of 43 kilogauss. Stellar evolution calculations indicate that this component will explode as a supernova, and that its magnetic field is strong enough for the supernova to leave a magnetar remnant. We propose that the magnetized Wolf-Rayet star formed by the merger of two lower-mass helium stars.guangxueOpticsOvercoming losses in superlenses with synthetic waves of complex frequencyyongfupinlvhechengbokefuchaotoujingsunhao�� zuozhe��FUXIN GUAN, XIANGDONG GUO, KEBO ZENG et al.�� lianjie��https://www.science.org/doi/full/10.1126/science.adi1267�� zhaiyao��zhanshichushijianshuaijianxingweidefupinlvguangbobeitichutongguoyinruxunizengyilaidixiaochaotoujingdebenzhengsunshi��danshiyouyujuyoushijianshuaijiandechengxiangceliangkunnan��yizhihennanzaishiyanzhongshixian��zaizhexiangyanjiuzhong��womentichuliaoyizhongjiyushijipinlvceliangdeduopinfangfalaigoujianfupinlvguangbo��zhezhongfangfayunxuwomenzaishiyanshangshixianxunizengyibingguanchashenyabochangtuxiang��womendeyanjiuweikefuchengxianghechuanganyingyongzhongdenglizitixitongdeguyousunhaotigongliaoyigeshiyongdejiejuefangan���� Abstract��Optical waves of complex frequency that exhibit a temporally attenuating behavior have been proposed to offset the intrinsic losses in superlenses through the introduction of virtual gain, but experimental realization has been lacking because of the difficulty of imaging measurements with temporal decay. In this work, we present a multifrequency approach to constructing synthetic excitation waves of complex frequency based on measurements at real frequencies. This approach allows us to implement virtual gain experimentally and observe deep-subwavelength images. Our work offers a practical solution to overcome the intrinsic losses of plasmonic systems for imaging and sensing applications.wulixuePhysicsErgodicity breaking in rapidly rotating C60 fullereneskuaisuxuanzhuandeC60fulexidebianlixingpohuai�� zuozhe��LEE R. LIU, DINA ROSENBERG et al.�� lianjie��https://www.science.org/doi/full/10.1126/science.adi6354�� zhaiyao��zaizheli��womenbaogaoliaozaiyigeqiansuoweiyoudedafenzi12C60zhongguanchadaodexuanzhuanbianlixingpohuai��zheshicongtadeershimiantixuanzhuanzhendongjingxijiegouzhongquedingde��bianlixingduanliefashengzaiyuandiyuzhendongbianlixingzuozhidedifang��bingqiesuizhuojiaodongliangdezengjia��zaibianlihefeibianlizhuangtaizhijianbiaoxianchuduocizhuanbian��zhexieteshudedonglixuelaiyuanyufenzideduicheng��daxiaohegangxingdezuhe��tuchuliaotayujieguanliangzixitongzhongyongxianxianxiangdexiangguanxing���� Abstract��Here, we report the observation of rotational ergodicity breaking in an unprecedentedly large molecule, 12C60, determined from its icosahedral rovibrational fine structure. The ergodicity breaking occurs well below the vibrational ergodicity threshold and exhibits multiple transitions between ergodic and nonergodic regimes with increasing angular momentum. These peculiar dynamics result from the molecule��s distinctive combination of symmetry, size, and rigidity, highlighting its relevance to emergent phenomena in mesoscopic quantum systems.shengwuxueBiologyDesign of stimulus-responsive two-state hinge proteinscijifanyingshuangtaijiaoliandanbaidesheji�� zuozhe��FLORIAN PRAETORIUS, PHILIP J. Y. LEUNG et al.�� lianjie��https://www.science.org/doi/full/10.1126/science.adg7731�� zhaiyao��shejijuyouliangzhongbutongdanjiegouwanzhengdedanbaizhishidanbaizhishejizhongdeyidatiaozhan��yinweitaxuyaodiaokejuyoulianggebutongzuixiaozhidenengliangjingguan��zaici��womenmiaoshuliao��jiaolian��danbaidesheji��tazaimeiyoupeitideqingkuangxiakeyixingchengyizhongshejizhuangtai��zaipeiticunzaideqingkuangxiaxingchenglingyizhongshejizhuangtai��Xshexianjingtixue��dianzixianweijing��shuangdianzi-dianzigongzhenguangpuhejieheceliangbiaoming��jinguancunzaixianzhudejiegouchayi��danzheliangzhongzhuangtaideshejijuyouyuanzishuipingdejingdu��bingqiegouxiangpinghenghejiehepinghengshijinmizuohede���� Abstract��Designing proteins with two distinct but fully structured conformations is a challenge for protein design as it requires sculpting an energy landscape with two distinct minima. Here we describe the design of ��hinge�� proteins that populate one designed state in the absence of ligand and a second designed state in the presence of ligand. X-ray crystallography, electron microscopy, double electron-electron resonance spectroscopy, and binding measurements demonstrate that despite the significant structural differences the two states are designed with atomic level accuracy and that the conformational and binding equilibria are closely coupled.gushengwuxuePaleontologyPre�CYounger Dryas megafaunal extirpation at Rancho La Brea linked to fire-driven state shiftxinxiannvmushiqizhiqian��labuleiyamuchangdejuxingdongwumiejueyuhuozaiqudongdezhuangtaizhuanbianyouguan�� zuozhe��F. ROBIN O��KEEFE, REGAN E. DUNN et al.�� lianjie��https://www.science.org/doi/full/10.1126/science.abo3594�� zhaiyao��gengxinshijuxingdongwumiejuedeyuanyinhennanqueding��bufenyuanyinshihuashijiludejiaochashikongfenbianlvzuailiaowuzhongxiaoshiyukaoguhehuanjingshujudeduiqi��womenzaijiazhoulabuleiyamuchangdedaxingdongwuyijizhonghuode172gexindefangshexingtanniandai��shijianjujin1.56wannianzhi1wannianqian��you7zhongmiejuedejuxingdongwuxiaoshiyu1.29 wannianqian��zaixinxiannvmuqikaishiqian��yugaofenbianlvquyushujujidebijiaobiaoming��zhexiexiaoshiyunuanqi��1.469 ~ 1.289wannian��ganhanhuahezhibeibianhuayinqideshengtaizhuangtaizhuanbianxiangwenhe��shijianxuliemoxingbiaoming��daguimohuozaishiwuzhongmiejuedezhuyaoyuanyin��erzhezhongzhuangtaizhuanbiandecuihuajikenengshirenleiduiganhan��biannuanheyuelaiyuerongyifashenghuozaideshengtaixitongdeyingxiang���� Abstract��The cause, or causes, of the Pleistocene megafaunal extinctions have been difficult to establish, in part because poor spatiotemporal resolution in the fossil record hinders alignment of species disappearances with archeological and environmental data. We obtained 172 new radiocarbon dates on megafauna from Rancho La Brea in California spanning 15.6 to 10.0 thousand calendar years before present (ka). Seven species of extinct megafauna disappeared by 12.9 ka, before the onset of the Younger Dryas. Comparison with high-resolution regional datasets revealed that these disappearances coincided with an ecological state shift that followed aridification and vegetation changes during the B?lling-Aller?d (14.69 to 12.89 ka). Time-series modeling implicates large-scale fires as the primary cause of the extirpations, and the catalyst of this state shift may have been mounting human impacts in a drying, warming, and increasingly fire-prone ecosystem.beijingshijian8rilingchen��meiguzhouerwupanjixuzoudi��daozhixiadie400dian��meilianchuzhuxibaoweiercheng��laodonglishichangrengranjidujinzhang��ruguoyoubiyao��meilianchuzhunbeijiakuaijiaxibufa��zuizhongdelilvshuipingkenenghuigaoyuyuqi��

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