• 
<tr id="yyy80"></tr>
    • <sup id="yyy80"></sup>
  • 

    <tfoot id="yyy80"><noscript id="yyy80"></noscript></tfoot>
  • 
99热精品在线国产_美女午夜性视频免费_国产精品国产高清国产av_av欧美777_自拍偷自拍亚洲精品老妇_亚洲熟女精品中文字幕_www日本黄色视频网_国产精品野战在线观看 
?
    
	
    
		
		
		
	
    

    

    
    
    
    
    
        
    
            
    有機錫5-甲基/氨基-1H-四唑乙酸酯的合成、結(jié)構(gòu)與抗腫瘤活性
    
                
    2018-12-10 06:49:20謝運甫唐良富
    
                
    無機化學學報 2018年12期 
    關(guān)鍵詞:四唑乙酸酯理學院
    
                    
    謝運甫 于 洋 唐良富*,
    (1天津科技大學理學院,天津 300457)
    (2南開大學化學學院,元素有機化學國家重點實驗室,天津 300071)
    The chemistry of organotin carboxylates has flourished for decades,owing to their remarkable structural diversity[1]and significant biological activity[2-3],for example as antibacterial and antitumor agents,as well as other potential applications in catalysis[4-5].Recently,carboxylic acids with additional donor atoms have proved their values in the capability of affecting the coordination modes of tin atom as well as decent bioactivities,and therefore attracted a great deal of attention.Lots of organotin carboxylates derived from S-or N-functionalized carboxylic acids have been synthesized and characterized in recent years,which displayed fascinating structural features[6-11]and excellent biological activities[12-15].On the other hand,tetrazole has been extensively exploited as ligand in coordination chemistry because of its variable coordination modes,and its derivatives have prominent versatile biological activities[16-17].Our previous work showed that organotin derivatives of tetrazolyl-1-acetic acid exhibited considerable structural diversity and good antifungal activity[12,18].As an extension of our investigations on biologically active organotin derivatives,we herein report the syntheses,structures and antitumor activities in vitro of organotin 5-substituted 1H-tetrazolyl-1-acetates.
    1 Experimental
    NMR spectra were obtained with a Bruker 400 spectrometer,and the chemical shifts were reported with respect to reference standards(internal SiMe4for1H and13C NMR spectra,external SnMe4for119Sn NMR).IR spectra were obtained from a Tensor 27 spectrometer as KBr discs.Elemental analyses were carried out on an Elementar Vario EL analyzer.Melting points were measured with an X-4 digital micro melting-point apparatus and were uncorrected.5-Methyl-1H-tetrazolyl-1-acetic acid (L1)and 5-amino-1H-tetrazolyl-1-acetic acid (L2)[19]were prepared according to the published methods.Organotin oxide and organotin hydroxide are commercially available and used as received without further purification.
    1.1 Synthesis of 1
    The mixture of 5-methyl-1H-tetrazolyl-1-acetic acid (0.28 g,2 mmol)and (Ph3Sn)2O (0.72 g,1 mmol)in anhydrous benzene (40 mL)was stirred and heated at reflux for 8 h.The reaction mixture was filtered off while hot,and the filtrate was concentrated to give the crude product,which was recrystallized from benzene/hexane to afford colorless crystals of 1.Yield:80%(0.79 g),m.p.96~98 ℃.1H NMR (CDCl3):δ2.34 (s,3H,CH3),5.08 (s,2H,CH2),7.45~7.55 (m,9H,C6H5),7.60~7.74 (m,6H,C6H5).13CNMR (CDCl3):δ8.8 (CH3),48.5 (CH2),128.5,129.0 (3J(13C-119/117Sn)=64.3Hz),130.9,136.9 (2J(13C-119/117Sn)=48.9Hz)(C6H5),152.6 (CN4),169.9(COO).119Sn NMR (CDCl3):δ-82.7.IR (cm-1):νas(COO)1 674,νs(COO)1 393.Anal.Calcd.for C22H20N4O2Sn(%):C 53.80,H 4.10,N 11.41;Found(%):C 53.99,H4.31,N 11.07.
    1.2 Synthesis of 2
    This complex was obtained similarly using tricyclohexyltin hydroxide instead of (Ph3Sn)2O as described above for 1,but in a 1∶1 molar ratio.Yield:68%,m.p.133~135 ℃.1H NMR (CDCl3):δ1.24~1.42(m,9H),1.60~1.73 (m,15H),1.81~1.98 (m,9H)(C6H11),2.55 (s,3H,CH3),5.06 (s,2H,CH2).13CNMR(CDCl3): δ8.9 (CH3),26.8,28.8 (3J(13C-119/117Sn)=63.8 Hz),30.9 (2J(13C-119/117Sn)=14.6 Hz),34.5,48.7 (CH2),152.3 (CN4),168.8 (COO).1H NMR (acetone-d6):δ1.11~1.20 (m,9H),1.46~1.58 (m,16H),1.73~1.80 (m,8H)(C6H11),2.41 (s,3H,CH3),5.10 (s,2H,CH2).13CNMR(acetone-d6):δ7.3 (CH3),47.8 (CH2),26.0 (4J(13C-119/117Sn)=7 Hz),28.1,30.1 (2J(13C-119/117Sn)=18 Hz),34.4 (1J(13C-119/117Sn)=359,343 Hz)(C6H11),151.9 (CN4),168.7 (COO).119Sn NMR (acetone-d6):δ17.7.IR (cm-1): νas(COO)1 663,νs(COO)1 351.Anal.Calcd.for C22H38N4O2Sn(%):C 51.88,H 7.52,N 11.00;Found(%):C 51.60,H 7.55,N 10.78.
    1.3 Synthesis of 3
    The mixture of 5-amino-1H-tetrazolyl-1-acetic acid (0.29 g,2 mmol)and (Ph3Sn)2O (0.72 g,1 mmol)in anhydrous benzene (40 mL)was stirred and heated at reflux for 8 h.After cooling to room temperature,the solid was filtered off and recrystallized from acetone/benzene to afford white crystals of 3.Yield:66% (0.65 g),m.p.165~166℃.1H NMR (DMSO-d6):δ 4.79 (s,2H,CH2),6.59 (s,2H,NH2),7.39~7.48 (m,9H),7.70~7.92 (m,6H) (C6H5).13C NMR (DMSO-d6):δ 47.4 (CH2),128.3 (3J(13C-119/117Sn)=70 Hz),129.0,136.2(2J(13C-119/117Sn)=47 Hz),142.5 (C6H5),155.8 (CN4),168.8(COO).119Sn NMR (DMSO-d6): δ -262.2.IR (cm-1):ν(NH2)3 403 and 3 192,νas(COO)1 624,νs(COO)1 384.Anal.Calcd.for C21H19N5O2Sn(%):C 51.25,H 3.89,N 14.23;Found(%):C 51.13,H 4.14,N 14.18.
    1.4 Synthesis of 4
    This complex was obtained similarly using 5-amino-1H-tetrazolyl-1-acetic acid and (nBu3Sn)2O instead of 5-methyl-1H-tetrazolyl-1-acetic acid and(Ph3Sn)2O as described above for 1.Yield:69%,m.p.113~116 ℃.1H NMR (acetone-d6):δ0.74 (t,J=7.3 Hz,9H,CH3),1.09~1.23 (m,12H,CH2CH2CH2CH3),1.40~1.56 (m,6H,SnCH2),4.78 (s,2H,CH2),5.98 (s,2H,NH2).13C NMR (acetone-d6):δ13.1 (CH3),17.5 (1J(13C-119/117Sn)=412,394 Hz)(SnCH2),26.7 (3J(13C-119/117Sn)=72 Hz)(CH2CH3),27.7 (2J(13C-119/117Sn)=26 Hz)(SnCH2CH2),47.4(CH2),156.0(CN4),169.7(COO).119Sn NMR (acetone-d6):δ69.9.IR (cm-1):ν(NH2)3 372 and 3 202,νas(COO)1 647, νs(COO)1 376.Anal.Calcd.for C15H31N5O2Sn(%):C 41.69,H 7.23,N 16.21;Found(%):C 41.37,H 6.81,N 16.70.
    1.5 Synthesis of 5
    This complex was obtained similarly using 5-amino-1H-tetrazolyl-1-acetic acid and tricyclohexyltin hydroxide instead of 5-methyl-1H-tetrazolyl-1-acetic acid and (Ph3Sn)2O as described above for 1,but in a 1:1 molar ratio.Yield:72%,m.p.164~166 ℃.1H NMR (acetone-d6):δ1.11~1.22 (m,9H),1.46~1.61 (m,16H),1.72~1.82 (m,8H)(C6H11),4.86 (s,2H,CH2),5.91 (s,2H,NH2).13C NMR (acetone-d6): δ27.6,29.9,31.6 (2J(13C-119/117Sn)=17 Hz),35.7 (1J(13C-119/117Sn)=357,341 Hz)(C6H11),48.0 (CH2),156.9 (CN4),171.0 (COO).119Sn NMR (DMSO-d6):δ-89.9.IR (cm-1):ν(NH2)3 390 and 3 202, νas(COO)1 644, νs(COO)1 367.Anal.Calcd.for C21H37N5O2Sn (%):C49.43,H 7.31,N 13.73;Found(%):C 49.27,H 7.37,N 14.15.
    1.6 Crystal structure determination
    Crystals of 2,4 and 5 suitable for X-ray analysis were obtained by slowly cooling their hot acetone/hexane solutions.All intensity data were collected with a Rigaku Saturn diffractometer using Mo Kα radiation (λ=0.071 073 nm).The structureswere solved by direct methods and difference Fourier map using SHELXS of the SHELXTL package and refined with SHELXL[20]by full-matrix least-squares on F2.All nonhydrogen atoms were refined with anisotropic displacement parameters.Hydrogen atoms were added geometrically and refined with riding model position parameters.The partial cyclohexyl carbons in 2 were disordered,and their occupancy factors were refined to 0.457 for C(18),C(19),C(21)and C(22)as well as 0.543 for C(18)′,C(19)′,C(21)′and C(22)′.The butyl carbons of C(4)-C(15)in 4 were also disordered,satisfactory results were obtained when they were given occupancy factor of 0.5.A summary of the fundamental crystal data for these three complexes is listed in Table 1.
    CCDC:1854152,2;1854153,4;1854154,5
    Table 1 Crystallographic data and refinement parameters for complexes 2,4 and 5
    Continued Table 1
    2 Results and discussion
    2.1 Syntheses of complexes 1~5
    Triorganotin 5-substituted 1H-tetrazolyl-1-acetates(1~5)were easily obtained by the reaction of organotin oxide or organotin hydroxide with 5-methyl-1H-tetrazolyl-1-acetic acid or 5-amino-1H-tetrazolyl-1-acetic acid in anhydrous benzene (Scheme 1).The complexes showed significantly different solubility in organic solvents.Complexes 1 and 2 were moderate soluble in chlorinated solvents,while complexes 3~5 were slightly soluble in these solvents.All complexes were soluble in acetone,and very soluble in strong polar solvents such as DMFand DMSO.The complexes have been characterized by IR and NMR(1H,13C and119Sn)spectra as well as elemental analyses.
    Scheme 1 Syntheses of complexes 1~5
    The IR spectra of complexes 1~5 showed the absence of the strong and broad band ascribed to the carboxyl group as well as the low carbonyl stretching frequencies,which indicated the removal of the carboxyl proton and the formation of the Sn-Obonds[21].The values of Δν(νas(COO)-νs(COO)for 1~5 were observed in the region of 240~312 cm-1,larger than those detected in the corresponding sodium salts of acids L1(216 cm-1)and L2(226 cm-1),in which the asymmetric and symmetric stretching vibrations of the carboxylate groups appeared at 1 624 and 1 408 cm-1for L1,as well as 1 632 and 1 406 cm-1for L2,respectively,implying the monodentate manner of the carboxylate groupsin the complexes to the tin atom[22-23].The1H NMR spectroscopic data are also consistent with the suggested structures,exhibiting the expected integral values and chemical shifts.The13C NMR spectra of 1~5 clearly showed the carbonyl carbon resonances atδ168.8~171.1.The119Sn NMR chemical shift of triphenyltin complex 1 (δ-82.7)in CDCl3solution was in the range of those values for fourcoordinated triphenyltin carboxylates[1],suggesting that this complex should be monomeric four-coordinated structure in non-coordinating solvent.Due to the relatively low solubility of other complexes,their satisfactory119Sn and13C NMR signals in CDCl3solution could not be observed.However,the119Sn NMR values of tricyclohexyltin complex 2 (δ17.7)and tributyltin complex 4 (δ69.9)in the weakly coordinating solvent acetone-d6were also compared to those values reported in the corresponding fourcoordinated tricyclohexyltin and tributyltin carboxylates[1].These results show that the polymeric structures in solid as shown in Fig.1~3 break down to monomeric structures in solution possibly owing to the weak Sn…N interactions.
    2.2 Crystal structures of complexes 2,4 and 5
    The molecular structures of 2,4 and 5 have been confirmed by X-ray crystallography,and presented in Fig.1~3,respectively.The selected bond distances and angles are listed in Table 2.Fig.1~3 show that the carboxylate group exhibits a monodentate coordination mode in the complexes,as above-mentioned by their IR spectra.Furthermore,the complexes form a similar linkage structure through the intermolecular Sn…N interactions.The Sn…N distance is markedly different in these three complexes.The Sn-N distance is 0.257 2(7)nm in 4,slightly shorter than those in triorganotin derivatives of tetrazolylacetic acid,such as triphenyltin 1H-tetrazolyl-1-acetate (0.260 9(6)nm)[12].The Sn…N distances in 2 (0.281 4(4)nm)and 5 (0.298 9(6)nm)are markedly longer than that in 4,but similar to that in tricyclohexyltin 1H-tetrazolyl-1-acetate (0.292 4(9)nm)[12],indicating that the Sn…N interactions are very weak in 2 and 5.The non-bond Sn…O distances are in the range of 0.333 9~0.338 4 nm,markedly longer than the covalent Sn-O bond distances (0.212 7~0.218 5 nm)in these three complexes,but still shorter than the sum of the van der Waals radii for the Sn and O atoms of 0.357 nm[24],suggesting that some weak interactions possibly exist between these two atoms.It is worth pointing out that complexes 4 and 5 form 3D supramolecular architectures through intermolecular N-H…N,N-H…O or C-H …O hydrogen bonds (Supporting Information)owing to the presence of amino group.
    Fig.1 Molecular structure of 2 with 30%probability displacement ellipsoids
    Fig.2 Molecular structure of 4 with 30%probability displacement ellipsoids
    Fig.3 Molecular structure of 5 with 30%probability displacement ellipsoids
    Table 2 Selected bond distances(nm)and angles(°)for complexes 2,4 and 5
    2.3 Cytostatic activity evaluation
    The cytotoxic activity of complexes 1~5 and the free acids (L1and L2)for Hela and A549 cells in vitro was assayed by the MTT method[25],and the data of IC50are summarized in Table 3.From these results,it is observed that the free acids have scarcely any activity against Hela and A549 cells,but all complexes except 4 display good activity to these two cells.It is also found that the complexes exhibit higher activity against A549 cells than Hela cells.Moreover,complex 3 exhibits promising result.This complex is even more active against A549 cells than cisplatinsupported by its smaller IC50value compared to that of cisplatin.
    Table 3 IC50 values of complexes 1~5 for HeLa and A549 cells μmol·L-1
    3 Conclusions
    In conclusion,five triorganotin 5-methyl-1H-tetrazolyl-1-acetates and 5-amino-1H-tetrazolyl-1-acetates have been synthesized and characterized.The crystal structural analyses of three of them reveal that the carboxylate group acts as a monodentate ligand in the complexes,and the complexes form linkage coordination polymers through the intermolecular Sn…N interactions in solid state.Most of the complexes display good cytotoxicities for Hela and A549 cells in vitro, especially complex 3 exhibits excellent cytotoxicity for A549 cells.
    Supportinginformation isavailableat http://www.wjhxxb.cn
    

    
                        
    猜你喜歡
    
                        
    四唑乙酸酯理學院
    
                        
    昆明理工大學理學院學科簡介
    昆明理工大學理學院簡介
    脲衍生物有機催化靛紅與乙酰乙酸酯的不對稱Aldol反應
    分子催化(2022年1期)2022-11-02 07:11:08
    西安航空學院專業(yè)介紹
    ———理學院
    超聲波強化制備高取代度大米淀粉乙酸酯
    化工進展(2015年3期)2015-11-11 09:18:48
    四唑基聚合物的研究進展
    中國塑料(2015年11期)2015-10-14 01:14:05
    環(huán)保增塑劑環(huán)氧腰果酚乙酸酯增塑PVC研究
    中國塑料(2014年11期)2014-10-17 03:07:50
    雙[2-(5-硝基-2H-四唑基)-2,2-二硝乙基]硝胺的合成與量子化學計算
    火炸藥學報(2014年5期)2014-03-20 13:17:51
    1,1′-二羥基-5,5′-聯(lián)四唑-5-氨基四唑鹽的合成及性能預估
    火炸藥學報(2014年5期)2014-03-20 13:17:46
    原位[2+3]環(huán)合成法制備四唑化合物、結(jié)構(gòu)及熒光性質(zhì)
    
                    
    
            
    
        
    
        
        
    
    
    

    










丝袜在线中文字幕|
国产老妇伦熟女老妇高清|
国产精品一区二区免费欧美
|
亚洲九九香蕉|
青春草视频在线免费观看|
999久久久国产精品视频|
妹子高潮喷水视频|
美女国产高潮福利片在线看|
黄色怎么调成土黄色|
午夜激情久久久久久久|
99热国产这里只有精品6|
亚洲av成人精品一二三区|
免费高清在线观看视频在线观看|
在线看a的网站|
免费女性裸体啪啪无遮挡网站|
一二三四社区在线视频社区8|
久久狼人影院|
久久精品国产a三级三级三级|
在线观看www视频免费|
国产视频一区二区在线看|
欧美日韩精品网址|
欧美 亚洲 国产 日韩一|
欧美性长视频在线观看|
精品卡一卡二卡四卡免费|
av国产精品久久久久影院|
国产精品一区二区免费欧美
|
国产一区亚洲一区在线观看|
七月丁香在线播放|
首页视频小说图片口味搜索
|
天天躁夜夜躁狠狠躁躁|
欧美日韩亚洲高清精品|
欧美亚洲日本最大视频资源|
每晚都被弄得嗷嗷叫到高潮|
每晚都被弄得嗷嗷叫到高潮|
中文字幕制服av|
av天堂在线播放|
涩涩av久久男人的天堂|
欧美成人午夜精品|
少妇 在线观看|
秋霞在线观看毛片|
美女视频免费永久观看网站|
欧美日韩黄片免|
欧美精品亚洲一区二区|
久久久久国产精品人妻一区二区|
精品少妇一区二区三区视频日本电影|
一边摸一边抽搐一进一出视频|
婷婷色综合www|
热99国产精品久久久久久7|
亚洲国产精品成人久久小说|
丰满少妇做爰视频|
亚洲色图综合在线观看|
久久 成人 亚洲|
真人做人爱边吃奶动态|
脱女人内裤的视频|
免费在线观看日本一区|
国产成人精品久久二区二区免费|
国产av国产精品国产|
国精品久久久久久国模美|
黄色毛片三级朝国网站|
精品少妇内射三级|
国产1区2区3区精品|
一区二区三区乱码不卡18|
超碰成人久久|
亚洲精品日本国产第一区|
黄色视频在线播放观看不卡|
亚洲午夜精品一区,二区,三区|
av不卡在线播放|
欧美国产精品va在线观看不卡|
日本欧美国产在线视频|
天天躁日日躁夜夜躁夜夜|
我要看黄色一级片免费的|
国语对白做爰xxxⅹ性视频网站|
欧美 亚洲 国产 日韩一|
水蜜桃什么品种好|
亚洲五月色婷婷综合|
亚洲熟女毛片儿|
999久久久国产精品视频|
91字幕亚洲|
国产亚洲精品第一综合不卡|
国产真人三级小视频在线观看|
两个人免费观看高清视频|
久久狼人影院|
国产午夜精品一二区理论片|
久久狼人影院|
1024香蕉在线观看|
天天影视国产精品|
两个人免费观看高清视频|
考比视频在线观看|
热99久久久久精品小说推荐|
亚洲精品美女久久久久99蜜臀
|
大片电影免费在线观看免费|
2018国产大陆天天弄谢|
又粗又硬又长又爽又黄的视频|
一级片'在线观看视频|
欧美精品av麻豆av|
两个人看的免费小视频|
国产99久久九九免费精品|
91九色精品人成在线观看|
国产精品久久久久久精品电影小说|
少妇 在线观看|
在线观看www视频免费|
日本五十路高清|
av欧美777|
亚洲精品美女久久av网站|
国产精品av久久久久免费|
亚洲精品日韩在线中文字幕|
日本av免费视频播放|
欧美日韩一级在线毛片|
成人三级做爰电影|
欧美久久黑人一区二区|
一级毛片我不卡|
久久久久网色|
国产成人精品久久二区二区免费|
亚洲精品国产av成人精品|
国产日韩欧美视频二区|
老熟女久久久|
精品人妻一区二区三区麻豆|
精品国产一区二区三区四区第35|
亚洲成av片中文字幕在线观看|
www.av在线官网国产|
亚洲av日韩在线播放|
日韩av在线免费看完整版不卡|
日本一区二区免费在线视频|
一边亲一边摸免费视频|
亚洲欧美日韩高清在线视频
|
男女床上黄色一级片免费看|
日韩,欧美,国产一区二区三区|
亚洲第一青青草原|
美女午夜性视频免费|
精品亚洲成国产av|
av视频免费观看在线观看|
国产欧美日韩一区二区三
|
嫩草影视91久久|
亚洲国产看品久久|
老汉色av国产亚洲站长工具|
亚洲黑人精品在线|
亚洲av成人精品一二三区|
搡老乐熟女国产|
咕卡用的链子|
激情视频va一区二区三区|
在线观看一区二区三区激情|
男人添女人高潮全过程视频|
日韩熟女老妇一区二区性免费视频|
国产精品 国内视频|
国产欧美日韩综合在线一区二区|
日韩中文字幕视频在线看片|
久久精品久久精品一区二区三区|
一二三四在线观看免费中文在|
99久久人妻综合|
亚洲国产精品999|
纵有疾风起免费观看全集完整版|
美女主播在线视频|
亚洲av成人精品一二三区|
国产片内射在线|
亚洲国产最新在线播放|
99热全是精品|
免费少妇av软件|
亚洲精品美女久久av网站|
满18在线观看网站|
日本午夜av视频|
√禁漫天堂资源中文www|
国产免费视频播放在线视频|
午夜激情av网站|
日韩制服丝袜自拍偷拍|
亚洲伊人色综图|
蜜桃在线观看..|
国产精品av久久久久免费|
成人手机av|
高清av免费在线|
久久青草综合色|
亚洲国产精品成人久久小说|
www.自偷自拍.com|
a级片在线免费高清观看视频|
大陆偷拍与自拍|
久久99精品国语久久久|
国产国语露脸激情在线看|
夫妻午夜视频|
精品国产国语对白av|
水蜜桃什么品种好|
在线观看人妻少妇|
看免费成人av毛片|
cao死你这个sao货|
一区二区av电影网|
国产成人av激情在线播放|
国产精品免费视频内射|
亚洲av在线观看美女高潮|
久久精品国产亚洲av涩爱|
交换朋友夫妻互换小说|
日本wwww免费看|
激情五月婷婷亚洲|
国产精品久久久久成人av|
久久久久久久大尺度免费视频|
天天躁狠狠躁夜夜躁狠狠躁|
日韩欧美一区视频在线观看|
大香蕉久久网|
久久99精品国语久久久|
亚洲国产中文字幕在线视频|
国产免费一区二区三区四区乱码|
激情视频va一区二区三区|
国产日韩欧美在线精品|
19禁男女啪啪无遮挡网站|
久久99精品国语久久久|
午夜激情久久久久久久|
少妇猛男粗大的猛烈进出视频|
99国产精品一区二区三区|
在线观看www视频免费|
精品人妻在线不人妻|
中文字幕人妻丝袜制服|
bbb黄色大片|
亚洲av电影在线观看一区二区三区|
欧美人与性动交α欧美软件|
日韩制服丝袜自拍偷拍|
久久天堂一区二区三区四区|
免费观看人在逋|
又大又黄又爽视频免费|
久久午夜综合久久蜜桃|
婷婷色综合www|
久久精品久久久久久久性|
国产淫语在线视频|
久久鲁丝午夜福利片|
又大又爽又粗|
亚洲国产中文字幕在线视频|
国产精品熟女久久久久浪|
欧美日韩黄片免|
日韩 欧美 亚洲 中文字幕|
性高湖久久久久久久久免费观看|
国产黄频视频在线观看|
免费av中文字幕在线|
丝袜美足系列|
国产深夜福利视频在线观看|
97在线人人人人妻|
亚洲av美国av|
国产女主播在线喷水免费视频网站|
又大又黄又爽视频免费|
久久青草综合色|
国产老妇伦熟女老妇高清|
好男人电影高清在线观看|
亚洲国产日韩一区二区|
国产精品成人在线|
av片东京热男人的天堂|
亚洲 欧美一区二区三区|
超碰97精品在线观看|
欧美av亚洲av综合av国产av|
www.999成人在线观看|
电影成人av|
亚洲av成人精品一二三区|
国产99久久九九免费精品|
啦啦啦啦在线视频资源|
99re6热这里在线精品视频|
大香蕉久久成人网|
久久久国产一区二区|
国产精品熟女久久久久浪|
国产精品久久久av美女十八|
videosex国产|
午夜老司机福利片|
国产99久久九九免费精品|
亚洲三区欧美一区|
另类亚洲欧美激情|
亚洲av欧美aⅴ国产|
国产精品亚洲av一区麻豆|
久久精品国产综合久久久|
人人妻,人人澡人人爽秒播
|
成年美女黄网站色视频大全免费|
国产一区二区在线观看av|
亚洲欧美日韩高清在线视频
|
日韩免费高清中文字幕av|
欧美亚洲日本最大视频资源|
91麻豆精品激情在线观看国产
|
日韩 亚洲 欧美在线|
男女无遮挡免费网站观看|
大型av网站在线播放|
国产97色在线日韩免费|
国产av国产精品国产|
国产亚洲av高清不卡|
久久国产精品男人的天堂亚洲|
久久中文字幕一级|
两人在一起打扑克的视频|
99九九在线精品视频|
免费在线观看影片大全网站
|
成在线人永久免费视频|
国产精品成人在线|
久久国产精品人妻蜜桃|
五月天丁香电影|
丝瓜视频免费看黄片|
久久久国产精品麻豆|
日本色播在线视频|
青春草亚洲视频在线观看|
成年人午夜在线观看视频|
精品人妻1区二区|
国产av精品麻豆|
99香蕉大伊视频|
一级毛片女人18水好多
|
天天躁夜夜躁狠狠久久av|
免费不卡黄色视频|
中文字幕高清在线视频|
天天躁夜夜躁狠狠躁躁|
久久女婷五月综合色啪小说|
亚洲国产av影院在线观看|
久久精品国产综合久久久|
www.自偷自拍.com|
大陆偷拍与自拍|
e午夜精品久久久久久久|
超碰成人久久|
日韩精品免费视频一区二区三区|
亚洲国产欧美一区二区综合|
国产人伦9x9x在线观看|
亚洲三区欧美一区|
亚洲男人天堂网一区|
国产黄频视频在线观看|
国产片内射在线|
水蜜桃什么品种好|
国产精品久久久人人做人人爽|
中国美女看黄片|
伦理电影免费视频|
免费看av在线观看网站|
老汉色av国产亚洲站长工具|
国产欧美日韩综合在线一区二区|
欧美久久黑人一区二区|
欧美乱码精品一区二区三区|
男女午夜视频在线观看|
国产免费福利视频在线观看|
一边亲一边摸免费视频|
99热全是精品|
国产一区二区三区综合在线观看|
成人手机av|
国产一区二区 视频在线|
天堂俺去俺来也www色官网|
99国产精品免费福利视频|
午夜激情久久久久久久|
精品久久久精品久久久|
一个人免费看片子|
国产亚洲精品久久久久5区|
高清av免费在线|
久热爱精品视频在线9|
国产又色又爽无遮挡免|
成年人黄色毛片网站|
av国产精品久久久久影院|
丝瓜视频免费看黄片|
国产亚洲欧美在线一区二区|
精品久久蜜臀av无|
中文乱码字字幕精品一区二区三区|
男女无遮挡免费网站观看|
婷婷色麻豆天堂久久|
日本av手机在线免费观看|
亚洲图色成人|
精品国产一区二区三区久久久樱花|
777米奇影视久久|
一边摸一边做爽爽视频免费|
在线观看免费视频网站a站|
国产成人精品无人区|
国产精品 欧美亚洲|
色婷婷久久久亚洲欧美|
午夜免费成人在线视频|
国产精品一区二区在线观看99|
精品久久蜜臀av无|
久久久久国产精品人妻一区二区|
精品人妻熟女毛片av久久网站|
免费观看a级毛片全部|
91九色精品人成在线观看|
av视频免费观看在线观看|
国产精品成人在线|
精品少妇内射三级|
国产精品久久久av美女十八|
你懂的网址亚洲精品在线观看|
又粗又硬又长又爽又黄的视频|
久热爱精品视频在线9|
18禁国产床啪视频网站|
成人黄色视频免费在线看|
亚洲成人手机|
国产日韩欧美在线精品|
成人手机av|
好男人视频免费观看在线|
男人添女人高潮全过程视频|
最近中文字幕2019免费版|
菩萨蛮人人尽说江南好唐韦庄|
亚洲欧美一区二区三区国产|
www.999成人在线观看|
精品国产一区二区久久|
亚洲自偷自拍图片 自拍|
国产精品麻豆人妻色哟哟久久|
日韩人妻精品一区2区三区|
亚洲国产精品一区三区|
嫩草影视91久久|
亚洲av在线观看美女高潮|
国产女主播在线喷水免费视频网站|
av在线播放精品|
日韩电影二区|
日韩制服骚丝袜av|
99热全是精品|
肉色欧美久久久久久久蜜桃|
亚洲国产精品一区三区|
亚洲第一av免费看|
婷婷色综合大香蕉|
国产精品99久久99久久久不卡|
国产精品一区二区在线观看99|
久久午夜综合久久蜜桃|
午夜影院在线不卡|
日韩伦理黄色片|
国产亚洲av高清不卡|
51午夜福利影视在线观看|
免费一级毛片在线播放高清视频
|
欧美日韩视频精品一区|
欧美日韩精品网址|
成在线人永久免费视频|
99九九在线精品视频|
精品国产乱码久久久久久男人|
免费在线观看视频国产中文字幕亚洲
|
午夜福利,免费看|
日本av手机在线免费观看|
大香蕉久久网|
婷婷色综合www|
男女下面插进去视频免费观看|
亚洲国产精品成人久久小说|
十八禁人妻一区二区|
亚洲精品国产区一区二|
亚洲国产av新网站|
国产一区有黄有色的免费视频|
久久久国产一区二区|
久热这里只有精品99|
搡老乐熟女国产|
亚洲男人天堂网一区|
啦啦啦在线免费观看视频4|
国产成人精品在线电影|
www日本在线高清视频|
国产精品 国内视频|
亚洲成人免费电影在线观看
|
精品人妻1区二区|
狂野欧美激情性xxxx|
久久精品熟女亚洲av麻豆精品|
www.熟女人妻精品国产|
欧美日本中文国产一区发布|
精品国产国语对白av|
国产成人精品久久久久久|
九色亚洲精品在线播放|
欧美日韩成人在线一区二区|
自线自在国产av|
国产成人欧美在线观看
|
亚洲 欧美一区二区三区|
人人妻人人澡人人爽人人夜夜|
一本大道久久a久久精品|
亚洲av日韩在线播放|
又紧又爽又黄一区二区|
欧美日韩一级在线毛片|
波多野结衣av一区二区av|
欧美中文综合在线视频|
一二三四社区在线视频社区8|
男男h啪啪无遮挡|
免费女性裸体啪啪无遮挡网站|
97人妻天天添夜夜摸|
国产片内射在线|
av欧美777|
精品第一国产精品|
成人亚洲精品一区在线观看|
久久精品亚洲熟妇少妇任你|
亚洲av国产av综合av卡|
亚洲专区中文字幕在线|
国产男人的电影天堂91|
久久av网站|
一区二区三区四区激情视频|
狠狠婷婷综合久久久久久88av|
下体分泌物呈黄色|
日本色播在线视频|
无遮挡黄片免费观看|
欧美国产精品一级二级三级|
黄色视频不卡|
婷婷色综合www|
亚洲av日韩在线播放|
久久久久网色|
制服诱惑二区|
女人高潮潮喷娇喘18禁视频|
√禁漫天堂资源中文www|
www.999成人在线观看|
9191精品国产免费久久|
日韩人妻精品一区2区三区|
丝袜在线中文字幕|
国产成人欧美在线观看
|
久久久久久久精品精品|
日韩熟女老妇一区二区性免费视频|
中文字幕精品免费在线观看视频|
男女边摸边吃奶|
久久久久久久大尺度免费视频|
免费不卡黄色视频|
另类亚洲欧美激情|
男男h啪啪无遮挡|
亚洲一码二码三码区别大吗|
王馨瑶露胸无遮挡在线观看|
日韩av不卡免费在线播放|
飞空精品影院首页|
欧美黄色淫秽网站|
少妇被粗大的猛进出69影院|
99国产精品99久久久久|
亚洲av日韩在线播放|
在线观看www视频免费|
国产麻豆69|
亚洲国产看品久久|
亚洲欧美日韩高清在线视频
|
看十八女毛片水多多多|
欧美日韩av久久|
后天国语完整版免费观看|
av天堂在线播放|
欧美国产精品一级二级三级|
国产精品.久久久|
亚洲午夜精品一区,二区,三区|
制服诱惑二区|
国产成人系列免费观看|
亚洲国产精品一区三区|
精品国产一区二区三区久久久樱花|
亚洲精品一卡2卡三卡4卡5卡
|
啦啦啦在线观看免费高清www|
18禁国产床啪视频网站|
久久精品国产综合久久久|
色精品久久人妻99蜜桃|
成年av动漫网址|
国产激情久久老熟女|
日韩,欧美,国产一区二区三区|
国产在视频线精品|
久久99精品国语久久久|
亚洲成人免费av在线播放|
男女高潮啪啪啪动态图|
国产真人三级小视频在线观看|
精品一区二区三区av网在线观看
|
亚洲第一av免费看|
久久久久久久精品精品|
亚洲国产精品一区二区三区在线|
美女视频免费永久观看网站|
自拍欧美九色日韩亚洲蝌蚪91|
欧美黄色片欧美黄色片|
亚洲精品国产av成人精品|
只有这里有精品99|
日本91视频免费播放|
av天堂久久9|
最近中文字幕2019免费版|
国产亚洲av高清不卡|
菩萨蛮人人尽说江南好唐韦庄|
国产午夜精品一二区理论片|
热re99久久国产66热|
久久久亚洲精品成人影院|
日韩制服丝袜自拍偷拍|
精品一区在线观看国产|
99精国产麻豆久久婷婷|
丰满饥渴人妻一区二区三|
一本—道久久a久久精品蜜桃钙片|
a级片在线免费高清观看视频|
欧美乱码精品一区二区三区|
大香蕉久久成人网|
午夜影院在线不卡|
av国产精品久久久久影院|
欧美在线一区亚洲|
成年av动漫网址|
久久久精品94久久精品|
波野结衣二区三区在线|
侵犯人妻中文字幕一二三四区|
亚洲av成人精品一二三区|
国产精品国产av在线观看|
亚洲欧美一区二区三区久久|
国产欧美亚洲国产|
欧美日韩av久久|
久久久精品国产亚洲av高清涩受|
久久久欧美国产精品|
国产免费一区二区三区四区乱码|
国产精品国产三级专区第一集|
国产亚洲av片在线观看秒播厂|
人人澡人人妻人|
久久99一区二区三区|
999久久久国产精品视频|
www.熟女人妻精品国产|
国产精品av久久久久免费|
侵犯人妻中文字幕一二三四区|
色婷婷av一区二区三区视频|
熟女av电影|
av不卡在线播放|
欧美日韩视频精品一区|
成年动漫av网址|
亚洲av片天天在线观看|
国产精品偷伦视频观看了|
免费少妇av软件|
啦啦啦在线免费观看视频4|
久久免费观看电影|
新久久久久国产一级毛片|
久久国产精品人妻蜜桃|
亚洲欧美一区二区三区黑人|
午夜视频精品福利|
激情五月婷婷亚洲|
国产精品av久久久久免费|
999精品在线视频|
亚洲国产中文字幕在线视频|
90打野战视频偷拍视频|
亚洲三区欧美一区|
91麻豆av在线|
国产免费现黄频在线看|
国产精品国产三级国产专区5o|
欧美黄色淫秽网站|
啦啦啦 在线观看视频|
色婷婷久久久亚洲欧美|
国产成人一区二区三区免费视频网站
|
日韩人妻精品一区2区三区|
亚洲少妇的诱惑av|
伦理电影免费视频|
你懂的网址亚洲精品在线观看|
晚上一个人看的免费电影|
男女国产视频网站|
你懂的网址亚洲精品在线观看|
午夜视频精品福利|
伦理电影免费视频|
欧美xxⅹ黑人|
黑人巨大精品欧美一区二区蜜桃|
中国国产av一级|
纵有疾风起免费观看全集完整版|
亚洲精品一区蜜桃|
亚洲欧美日韩高清在线视频
|
国产免费福利视频在线观看|
自线自在国产av|
黄片播放在线免费|
交换朋友夫妻互换小说|
av天堂在线播放|