Considering the structure of double-stranded DNA, which kind(s) of bonds hold one complementary strand to the other?

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Le3nzVrFkVRixcvdnR0nD17NndDlo+Pj4ODw7p163AcX7ZsWffu3SMjIzko/P77721sbJYsWULTtLe3d69evVJSUrip3FOmTLGxscnJyXna7xNevHj97+r6QMN0MAvw0EeGsry7tikA6u5JBvqeuf8EANHlzjUDuFYPDNz4/eqH7/3HxdFp3OtvfDLx4/4ufV576ZVftv4MDJw8cuyNV1+z69b9q8+++O7bpe+P//fi8AiWoAidwXPuPAcb2zdeHbtwQdCkCR9sTtrY2tAYvWato12PN197PSJk4YvDR4we8cKGH9bRGFEmk/fu6fjKi6OVjc3AQFZquq2V9aeTJrMEeeHM2ckfTrTrZj3lo0kT/v3eO2++ZYHQnBkzgWKAAe5vTqZgSP+BfZ1d5syY+fUXXzr1cBg5bPjxQ0famlujQsN7dLed+vGUsKCQca//ywIhP/cwXA0x0Ylvj3s/cnHkN7Nm9Onn6u3rBQwcPXTi3TcmWKHuc7+YG7UgauanXy30CdTp1MbT2aZuDQoOcO7da/z4t0JDg0eMeG7AgL4///yTRtvWpm51c5uNzFBa2n4WaACapHAAmmWpI0eqx49/q19/12nTPpvnPufTqZOlUkl9/e1Zs2fY97CdPn3a3LmzRo4c/q9/vbZ//x4WqCNHqocNG9yvf5/x77w1c+bXI0Y8h8zQ8uVLAOiLF8+NGDl8yJCBnl7u7h5zbe26f/jhf86dOwNA+/p6mZmhtWtXA9AkiU2a9KG9vU2WIOP+D6AuaJYFluWOPwMkAyQBBAEEDhQOFAMMA0x7XhKAf/JOlxPLAMt0/NBk2s0ywHIfRe1q/3jt2uKBhncX8N8PaBicpDGCq9LeX3b6e3lP/nDiW2P/5TnX7cDuPZpWFTBA6g0lhdLIhWEfvPv+mFEvzZj21b6duw1qDTBw9eLl6DVrP500+c3XXp804cN9O3cBAy13GlMSk2dNnzHq+ZGzps/YlJBUd7MGGLhw5rfg+QtWLFmmamphCerIwWq3mbPWrvqe23tOpiB4/oLxb7zlPc8jMSYueH5AclyCsrGZ0OmBAQYnb165uuGHdZ9N/uT1V159d9z4hQuCTh45BgwLDFSVVcz39v100uQFvv4rly5f4Ou/OWEXqYHMDNHnn3097p1xb457I2hh4M3bN7l9HZQdWugXPvndyW+OenPaxKlbYpJJEgOgSQozGLQA9O3bN2Pjoj+e/NG4t9+Y/vWXW7Zs4jIolc1r162eMeOrkyePAdAMS+KEnmFJ7n1w+HDVnLkz3/n3uHffGz9jxldSqQSAPnbs8Np1q1999eX/THh3xjdfZWWlUzTOPVywrFz+6aeT33v/HW8fj+++W+rr67V16xaNVqXTq0+fPunj6/niqBHj3n4jOHjBr7+eAKB1enViYtycuTPz8nIwXNfS0hgTs97Ta16RVGx6IuGBhtd/EQ80XU3/cxvCssCy5N0Lk3eXcMfLrCPWcOau0Xbd96KziwWgaJqkKO7dSZBkU3NzU3Oz8f2q0WpxkuCWa+vqlG0q7gPIuAkL0KpUtqqUao1GpW6jWaa9KIqsv3OnobGRe0nSFEGResyg0WlZAAzHWQBVW5tGqzWWo9Prb9XUcMsMy+oNBhaAK5CgSC6dZpjmlhalSqUz6B+4tK7fuKHWaFgABtgGfSsGNM0QDENgja26+kbQUIAB4ABE+zlStdQrm+uAbQPQUFR7k0qSQNPtyw0NmpqaFoOh/SWOA8sCht37y5kggCDuvayvb2tpMWg0jE7HcikMAw0NGo2GbmsjuRStlqVpMBiApkGpxLk9YhgYN2FZ0OtBqSS4nFwKt7lKRRjzGAygVlPGl13XWgAtgAZAA6ADWgc0BSwF7H0Qc983CYp3l/Ldjxv2YSeQYxuGAIYA1gBsl3+uEg80vDu1/8ZAwwJodTojtRitxwzGRJphjMsYgZM0dQ93CILjlY7bkjRFM4zxJQOsSt1G0bSRdTpmxgmipbX1vs0piiDv5SEokmFZgiI7JrIABhzDcBzD8QcK1Op0GNBtjF6pagagwUAAyQIObJMWCAAVASQDNADD0Y1G01bDstCRaTQamnvJkQpBAMOARsNw2IFhQNNAkvfaY5IEHAeGebCd1mgYna49gzGnwXBvXxwkPWC1mtLrwQhDNH0fMBlTGKbdDy2ka5kHmr+7O3zc8EDT+UUATQBNAk0CTQFNAU0DTd/tWGM7+L5Riq7rx+1UNnnATxh/+4V3D1a4BG6YiVvuON7YVcwAUAxzr5YswwDQ7b3DrDFda9DrccyYB6dI4yqCInGSxClSa9ATNHX3bLMkQzMAOEl2PIoETRlTKJZRqdUPrKVYhmIZHWbouHcGoOMeaWANBG7clzHFWAgDQEILDUoAHYAOMAMYdEADUCwFYGAoPdA6oJWUWgsGCnAKcFzXRBNKlmxr3wR0QKuB0XDLLKm6l86Z0QCtbs/WIZHCWgF0DKGkceXdbdva8zNamrgbEqsFVktiLUBxa7VAa9pLwFu5PDSuNGgbmA67xnSN7WVSbfcFw2oB9F3brBJYJYAaQM2dkfZmsMOblUMcHRh0YDD5hcP7scwAwQBxtxH841rOFAMUDRgNXf7HWXmg6WrmgebvAjQPkIFxgQaWYpn7cIdhtHo9Bz04RRohg4MJnCS4dCNbcKWRDN2m1XBrjfyk1ese2CNnjCRIhiZpmlvF0U87o9CUHsfatBoGgGYZbkOKZbC7JRM0RbMMQVMETeHQxAENiTXfvSIBMJI7Uzqg9EBjQGJAkoDpKc2DvMJq7ycVbTtkEMr25busA7T6HqbQaiPHtGdmtfcVy0ESrb5HSMa93C2wHWjYe1sxhMpIOZw5/DJoOuKOqYmEBxrejzYPNF1OHXrQ2Ee4Qx6Tv8Oe2I/bqWzygJ8o/vaBpw7qiC/3XZd/eDt0dhMMUAA6vP0vRrEarH2VgbyXjWQBowCj7qXgzL0MON0hnQYKAKOAYNr/dtwXwQDJ3ksxkPcydNzdf3fHMLjI77cBo2kagAEcA2CApQAYILB2IqVYFqdpgmKN1yEJoMbZZjVO3B3faDMwGNO+rCOBW+64lgTAWSAAMAYM9L3RyTYDQwDgLOBse4oaYztmMKaTcG9DPQV6qn0X3IKOBC1xX+FaEnQkkAA43AsGY0BLmH5M9kmHdLlJo3/8IsFyaI0BiwFDAUPd/VJh8pB5P44ZFhiW+2jkrrk/fEO8+4LboouLB5ouZx5o/hZAcxdEGLW+nVra2YK6l6EjZ3DwgdOgJ+6BiBYzlsNqDPcVSDBgIAGj7oMY8n4GMpAdeYhUatpLNpCgw9s31OGkUtOeqCfu4dcfEAdrVgEFLIABo43tIkMCMEARHM3cxRoGSAaABZoCI7sQABr83jIHLhxV4Gw7aqix9veDUk9xC1w2zlxRHLVgDDQo9Vy6GmONG5IAOvLB0h6wEZ4MNBjo9r5A47bGHf0NaIYEHmj+7uaBpouJu2mBpECvB5IGnQFIGnASSBpIun0Airs4TT/c8pf4sQ9QJ/NjquP1xwLcna1IAeDAGGiSW0kBSwJDm5pSeLMsAUDdHfBlWGCApoChgcSBxIHUAKkBRgmMEqAFoOWRX0J4PxMTYCDAAJwZPTB6YHTA6IBRA+hYIFhon5POjVNiwLsr2cCCgTWeYM6UASgSGBIYCliMIemOXxG7uP4WQIPjQNNAUUDSoMeApMGAA04ATgBJAMlNsyFo5m/hx5XJA36y+AGnAaeBoIGggaKBoimGphiaaz5JYKn7ccnkLfo/3DihJSkDRhowykADzQADFMkDTaf1I4GG1QLoKMAIWkfS3A+PAYW391fx7irG/2ACGAIYAxAc0FB359KxAATZ5ZGmywMNdy1yJ4+bn9gRNblGjmNVbgofc++myy7qx51Wa/KAnyh+7h93frlz3d5Zw7LG83t3XisA9viTjnn/tSYxIDFuqILrINUDtNGAsYCxQDJAMvfN2Df5fcv/dDP3zJ0Xrk+Gu9a4S4o7j+0ASuO8u5JZNbBqYNqAaQO6Deg2oNRAqYFoA0bLnWEcKBxILTBtQJmuJf9r1OWBptGg1gKNAY0BQ7MsRhLAAk1R3G/ckMCS7ffXsxpgNcDeHYXqsmbh8WzygJ8sfu4f10LqgNXd/WqJ4zjDMDQAwdIsQQHFgJ4Bzd2hRt6mMmEATAeMAViMBIoGmmsUuW+HFAMU0z6sz/GPyad08TaaOy9GoFFToGP+ADSYjndXMtECRAvgLYC3AMa5FbBWwFXAaHFcBYCpaa0eMC0wWmBM3Z4/qbo80OgBMAA9wdBw9ws73uFuyo5fNLiv+SbvlH9CP+60MJMH/GTxc2O9SmCUwBiAMQADegb0TPtoMAB191RzLaSp5+D9090MoLy7DEwzME3ANgPbDCwBLNH+HHZuNUYDZpzgxts0bj8XFADVntR+URE60LQCqQFKS9EEw1JtACpTD6Dw/nO+b8iJBYJt743TKdkO4/QUkKSJm/MnVpcHGgygUaeXKSrkZQfLpeXl0rJT8sOHCyuOSyqOSyqOFVYcK6w4XFRxuKiiqriiqriirORg17as6vFs8oCfLH5ZmUJWpsipVuRUKworFIUVilMSxSmJ4rzs4Mn8EnGxtLhUUVhVVlCpKJPJKxVl0nIFbxNaUHEm79DFolJ5oVx2vCr/aGVutTzzeEVOdaWiulJRWXGksuLI0dLDR0sP/1ZS/ltJeXlVJW8T+lhp9bHS6uqy49VlxyvLT1SWnzhaVnW0rOpceckZhfTiodIz5dL8/NwiqST/0PEMeXlReQXvLuXqovLqorJjRWXHikpPF5WelsrPSeXnFIqz5eUX5IXVpO7e9DcwYKZuz59UXR5ooJE+Kz60dk7Y6pkhG74IjP0yeOc3i7dPj9zzReSeLyL3fh659/P25V3TIndNi9z72bKu7c8XPZ5NHvCTxZ8zJThnSvCO6cE7pgf/Mj34l+nBaZ8Fp30WvNYjOHzqrKGBX760yA1t9kEJbih5LtrqgxLdeZvS0TOsE93Ghg9+77tRmRv7in8ZfnIdOp+AziWic4no8CbLw5ssqzZ3q9rc7egm86ObzI9vtORtQh/9ER39EVVvQdVb0JEU8yMp5meT0dlkdCIJnUhC+3eMTVzXf0RU5CvfLUebG9G631H8Ud5dyUnVKKkaJR9DycdQ0kmUdBLFH0bxh/vGSPtskI5f8fPuW2wdBUoAIPRAE6Zuzp9UXR9odFBz8HyS3/LtERuyIhKEUUnFEZvyAuMK/WIK/WKkfjFSv5hC/5hC/xjx/Bjx/BipT3LXtm/849nkAT9Z/NUea6o91uQvuGe57xq575qdS9b94B746lLP9zeEuWYssd8dark3pGf2Uqc94bxN6N7bF/Tbs/C970ZN3/j+hdJJzb/NZcTPQ/EoKBoJRSM18lc18ldVirEqxVhdycu6kpf1sld5m9C6sn66sn6q0lGq0lEa+Ssa+SusbAArG8BWDIXKYb8d8xKlvft+QvzkH7cMygW73XrXjDreXchOWbecsm71FNT3FNQ7CBodBI1902/3Tb/95oHzL2478p81u7JaQQWgAgASA4YfcjK5KDj76/nt0yNFATGHvZIr3eJLfTbJvZLLPDeVeW6q9NhU6bFJ4Z2k8E5SeCc+A5d5PZ4ft/wi30RF4OZK/xS5Z4LcPU7hkVDiES/ziJP7JBV7xBV6xBV5xUs844q84+U+SQrfpKcdz9M+PnKfOLlPXLlXfLlXfKlXYqlXosw3QeabUBqQuOeTcBTn3nPvIqsDC23Sw1FqAEoPRJkLH+704If7cfM/7XJSg1B2pIVoMcoIRanBKCvcTLQI5UShPYG2gsXd0iPQzgAuHaUuRGmhna6+aaHmWRHjYj5/O+YLWt6DLe1JFvaAEidW6spKXXG5My53hqLeUNSbKe7NFPcGaecyU2LLlNiCeBCIB0FhXyjsS5Q4ESVOWFFfsmQgyPqA1AUk9iC2A/FAEA+EXAQiBMUDoKiftqAHIXMGRW+tqJK69WcAACAASURBVBtbNJAtGkiU9CZKeoPMDmR2kNcP8vqZvIIPmJW6sFIXSm5Hye1A0hckfTG5KyZ3heI+rMSZLR94fQ9C6/OHCS+h3DaUo0Q5qqfr7NaH+y8q31KgsxToUF4TymtySFc5pKtQAYYKMCRqQAXNPXJqe+TUosImJG5AQgPKwRyyddZprVZ5GBJqUG6blRRH+a1IqkViDRJrUIEaFahRbivKbX028T/ucTPPVptnqy2FKkuhCuW1orzWblnabllai+w6K9GdT5b+lHOdBiCBJbjfCzJ1c/6k4oGmiwGNfEGKzD9Z7pkg90wo904q90mWeyXIPOLK56fIvBKKPOPkfsmlC1JK/DdKPWIL5qzngaaLAU12JBJEoNQQtGc+2h+EMsNQ+kK0289sX4itYLFt1iKbzCiznEVmOYusBFFWgqhOV9+/KdDg0n54cX8odAaJE4jtQGIPkkFQNASk1lBgzgGNvrAnLXeFg/1B4cwDTRcDmkIlKlTaCWtsBLdQfj3Kq0PpapSh7p6utDzQbJ6jR5ltSKQyl+iRqBnlNvNA0znFA00XA5pK342lHgkHPRIP+2yq8NtY7rux0j+lKmBztVfyQY/EMo+EKp+NB4N+LA9IKfNJrvDbyANNFwMaYRgSRVoKoiyyIrtlL7bNX2ZTsMxKtNh8X4jZ3mC0NxClhqK0YLQ/0CI93CozstPVt6sDjcyJkTmBpB9I+oFkAEgGkLI+nLGi3kyeK5vfB8ROIHFm5dZQagOFE0H0Hkj7Q/EAtqAfiPuDzBGkDnSJPV1iry8ZpC8ZZFA4GRROtLQ/Le1v8gr+04Emu9Eyu9Fa2GAtbEC5TSi3CYlakagViVRIpEIiHRLpzIV6yxysu0hrk6e3ENWa59Ra5qtQVgPKarHK1aD0VrS/sZtA002gsRYorQVKa0GztaDZPFtpnq3kgca04oGmiwGNwj1e4RF/xDfliG9KsVtM0dxohVeCwiux3C2u2

A life table

a. is used extensively by the insurance industry. b. can be used to determine the exact year of death for an individual. c. for humans does not take into account deaths from accidents. d. has no predictive value. e. determines the maximum age a human can reach.

Which of the following words refer to the destruction of ALL living cells, spores, and viruses?

a. disinfection b. sterilization c. antisepsis d. sanitation

Which of the following is NOT a target of drugs that inhibit protein synthesis?

A) the shape of the 30S ribosomal subunit B) interference with alanine-alanine bridges C) the enzymatic site of the 50S ribosomal subunit D) movement of the ribosome from one codon to the next E) the tRNA docking site