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1 | ANDERER FA, 1960, NATURE, V186, P922 | WoS | 10
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5 | ARNOTT S, 1965, J MOL BIOL, V11, P391 | WoS | 10
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8 | ARNOTT S, 1968, NATURE, V220, P561 | WoS | 8
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9 | ARNOTT S, 1973, J MOL BIOL, V81, P93 | WoS | 8
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10 | ASTBURY WT, 1947, S SOC EXP BIOL, V1, P66 | WoS | 25
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11 | ASTBURY WT, 1938, NATURE, V141, P747 | WoS | 9
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12 | AVERY OT, 1944, J EXP MED, V79, P137 | WoS | 55
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13 | BARRETT AN, 1971, COLD SPRING HARB SYM, V36, P433 | WoS | 8
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14 | BAWDEN FC, 1937, P ROY SOC LOND B BIO, V123, P274 | WoS | 16
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15 | BAWDEN FC, 1936, NATURE, V138, P1051 | WoS | 9
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16 | BEHE M, 1981, P NATL ACAD SCI USA, V78, P1619 | WoS | 8
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17 | BENZER S, 1955, P NATL ACAD SCI USA, V41, P344 | WoS | 10
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18 | BERMAN HM, 1992, BIOPHYS J, V63, P751 | WoS | 11
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19 | BERNAL JD, 1941, J GEN PHYSIOL, V25, P111 | WoS | 105
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20 | BERNAL JD, 1924, P R SOC LOND A-CONTA, V106, P749 | WoS | 20
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21 | BERNAL JD, 1948, NATURE, V162, P139 | WoS | 8
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22 | BERNSTEIN MH, 1953, BIOCHIM BIOPHYS ACTA, V10, P600 | WoS | 8
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23 | BLOOMER AC, 1978, NATURE, V276, P362 | WoS | 12
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24 | BOEDTKER H, 1958, J AM CHEM SOC, V80, P2550 | WoS | 16
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25 | BOIVIN A, 1948, CR HEBD ACAD SCI, V226, P1061 | WoS | 8
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26 | BRAGG WL, 1952, P ROY SOC A, V213, P425 | WoS | 13
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27 | BRENNER S, 1959, BIOCHIM BIOPHYS ACTA, V34, P103 | WoS | 12
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28 | BRENNER S, 1961, NATURE, V190, P576 | WoS | 10
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29 | BROWN DM, 1952, J CHEM SOC, P52 | WoS | 9
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30 | BROWN GL, 1953, NATURE, V172, P339 | WoS | 10
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# | Author / Year / Journal | Recs
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31 | BUTLER PJG, 1971, NATURE-NEW BIOL, V229, P47 | WoS | 11
|
32 | BUTLER PJG, 1977, NATURE, V265, P217 | WoS | 8
|
33 | CASPAR DLD, 1956, NATURE, V177, P928 | WoS | 44
|
34 | CASPAR DLD, 1956, NATURE, V177, P475 | WoS | 24
|
35 | CASPAR DLD, 1962, COLD SPRING HARB SYM, V27, P1 | WoS | 23
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36 | CASPAR DLD, 1963, ADV PROTEIN CHEM, V18, P37 | WoS | 22
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37 | CASPAR DLD, 1969, J MOL BIOL, V46, P99 | WoS | 9
|
38 | CHARGAFF E, 1950, EXPERIENTIA, V6, P201 | WoS | 25
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39 | CHARGAFF E, 1953, NATURE, V172, P289 | WoS | 10
|
40 | CHARGAFF E, 1955, NUCLEIC ACIDS, V1, P307 | WoS | 10
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41 | COCHRAN W, 1952, ACTA CRYSTALLOGR, V5, P581 | WoS | 54
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42 | COCHRAN W, 1951, ACTA CRYSTALLOGR, V4, P81 | WoS | 9
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43 | COHEN SS, 1942, J BIOL CHEM, V144, P589 | WoS | 10
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44 | COMMONER B, 1953, SCIENCE, V118, P529 | WoS | 11
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45 | CONNER BN, 1982, NATURE, V295, P294 | WoS | 10
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46 | COOPER PJ, 1966, J MOL BIOL, V16, P562 | WoS | 11
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47 | COWAN PM, 1955, NATURE, V176, P501 | WoS | 8
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48 | COX RA, 1955, NATURE, V176, P919 | WoS | 9
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49 | COX RA, 1956, J CHEM SOC, P2499 | WoS | 9
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50 | CRICK FHC, 1954, P ROY SOC LONDON S A, V223, P80 | WoS | 48
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51 | CRICK FHC, 1956, NATURE, V177, P473 | WoS | 31
|
52 | CRICK FHC, 1961, NATURE, V192, P1227 | WoS | 12
|
53 | CRICK FHC, 1953, ACTA CRYSTALLOGR, V6, P689 | WoS | 10
|
54 | CRICK FHC, 1958, S SOC EXP BIOL, V12, P138 | WoS | 8
|
55 | CRICK FHC, 1966, J MOL BIOL, V19, P548 | WoS | 8
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56 | DEKKER CA, 1954, P NATL ACAD SCI USA, V40, P894 | WoS | 13
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57 | DELBRUCK M, 1954, P NATL ACAD SCI USA, V40, P783 | WoS | 8
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58 | DICKERSON RE, 1981, J MOL BIOL, V149, P761 | WoS | 8
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59 | DONOHUE J, 1956, P NATL ACAD SCI USA, V42, P60 | WoS | 12
|
60 | DOTY P, 1959, P NATL ACAD SCI USA, V45, P482 | WoS | 14
|
# | Author / Year / Journal | Recs
|
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61 | DOTY P, 1955, BIOCHIM BIOPHYS ACTA, V16, P446 | WoS | 8
|
62 | DOTY P, 1960, P NATL ACAD SCI USA, V46, P461 | WoS | 8
|
63 | DREW H, 1980, NATURE, V286, P567 | WoS | 14
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64 | DREW HR, 1981, J MOL BIOL, V151, P535 | WoS | 13
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65 | DREW HR, 1981, P NATL ACAD SCI USA, V78, P2179 | WoS | 8
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66 | FALK M, 1963, J AM CHEM SOC, V85, P387 | WoS | 9
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67 | FALK M, 1963, J AM CHEM SOC, V85, P391 | WoS | 8
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68 | FELSENFELD G, 1957, J AM CHEM SOC, V79, P2023 | WoS | 11
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69 | FEUGHELMAN M, 1955, NATURE, V175, P834 | WoS | 36
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70 | FINCH JT, 1959, NATURE, V183, P1709 | WoS | 9
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71 | FRAENKELCONRAT H, 1955, P NATL ACAD SCI USA, V41, P690 | WoS | 33
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72 | FRAENKELCONRAT H, 1956, J AM CHEM SOC, V78, P882 | WoS | 26
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73 | FRAENKELCONRAT H, 1957, BIOCHIM BIOPHYS ACTA, V25, P87 | WoS | 13
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74 | FRANKLIN RE, 1953, NATURE, V171, P740 | WoS | 218
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75 | FRANKLIN RE, 1953, ACTA CRYSTALLOGR, V6, P673 | WoS | 70
|
76 | FRANKLIN RE, 1955, NATURE, V175, P379 | WoS | 50
|
77 | FRANKLIN RE, 1953, NATURE, V172, P156 | WoS | 48
|
78 | FRANKLIN RE, 1956, NATURE, V177, P929 | WoS | 48
|
79 | FRANKLIN RE, 1956, BIOCHIM BIOPHYS ACTA, V19, P403 | WoS | 40
|
80 | FRANKLIN RE, 1958, ACTA CRYSTALLOGR, V11, P213 | WoS | 38
|
81 | FRANKLIN RE, 1955, ACTA CRYSTALLOGR, V8, P777 | WoS | 28
|
82 | FRANKLIN RE, 1957, NATURE VIRUSES, P39 | WoS | 25
|
83 | FRANKLIN RE, 1953, ACTA CRYSTALLOGR, V6, P678 | WoS | 20
|
84 | FRANKLIN RE, 1955, BIOCHIM BIOPHYS ACTA, V18, P313 | WoS | 19
|
85 | FRANKLIN RE, 1955, NATURE, V175, P1076 | WoS | 14
|
86 | FRANKLIN RE, 1956, BIOCHIM BIOPHYS ACTA, V19, P203 | WoS | 14
|
87 | FRANKLIN RE, 1951, ACTA CRYSTALLOGR, V4, P253 | WoS | 12
|
88 | FRANKLIN RE, 1956, BIOCHIM BIOPHYS ACTA, V21, P405 | WoS | 11
|
89 | FRANKLIN RE, 1959, PLANT PATHOLOGY PROB, P447 | WoS | 10
|
90 | FRANKLIN RE, 1955, ACTA CRYST, V8, P151 | WoS | 8
|
# | Author / Year / Journal | Recs
|
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91 | FRASER RDB, 1952, NATURE, V170, P491 | WoS | 9
|
92 | FRESCO JR, 1960, NATURE, V188, P98 | WoS | 8
|
93 | FULLER W, 1965, J MOL BIOL, V12, P60 | WoS | 25
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94 | FULLER W, 1967, J MOL BIOL, V27, P507 | WoS | 11
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95 | FURBERG S, 1952, ACTA CHEM SCAND, V6, P634 | WoS | 13
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96 | FURBERG S, 1950, ACTA CRYSTALLOGR, V3, P325 | WoS | 10
|
97 | GAMOW G, 1954, NATURE, V173, P318 | WoS | 10
|
98 | GIERER A, 1956, NATURE, V177, P702 | WoS | 23
|
99 | GIERER A, 1957, NATURE, V179, P1297 | WoS | 15
|
100 | GIERER A, 1956, Z NATURFORSCH B, V11, P138 | WoS | 14
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101 | GREEN DW, 1954, P ROY SOC LOND A MAT, V225, P287 | WoS | 11
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102 | GREGORY J, 1965, J MOL BIOL, V13, P796 | WoS | 10
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103 | GRIFFITH F, 1928, J HYG, V27, P113 | WoS | 9
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104 | GRUNBERGMANAGO M, 1955, SCIENCE, V122, P907 | WoS | 8
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105 | GULLAND JM, 1947, J CHEM SOC, P1131 | WoS | 15
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106 | GULLAND JM, 1947, S SOC EXP BIOL, V1, P56 | WoS | 8
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107 | HALL CE, 1958, J AM CHEM SOC, V80, P2556 | WoS | 16
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108 | HAMILTON LD, 1959, J BIOPHYS BIOCHEM CY, V5, P397 | WoS | 9
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109 | HARRIS JI, 1952, NATURE, V170, P613 | WoS | 25
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110 | HARRIS JI, 1955, J BIOL CHEM, V214, P215 | WoS | 15
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111 | HART R, 1955, P NATIONAL ACADEMY S, V41, P261 | WoS | 26
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112 | HERSHEY AD, 1952, J GEN PHYSIOL, V36, P39 | WoS | 37
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113 | HERSHEY AD, 1955, VIROLOGY, V1, P108 | WoS | 8
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114 | HOLMES KC, 1958, VIROLOGY, V6, P328 | WoS | 11
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115 | HOOGSTEEN K, 1959, ACTA CRYSTALLOGR CO, V12, P822 | WoS | 12
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116 | HOOGSTEEN K, 1963, ACTA CRYSTALLOGR, V16, P907 | WoS | 10
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117 | HUXLEY HE, 1960, J MOL BIOL, V2, P189 | WoS | 12
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118 | HUXLEY HE, 1957, ELECTRON MICROSCOPY, P260 | WoS | 9
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119 | JACOB F, 1961, J MOL BIOL, V3, P318 | WoS | 12
|
120 | KAUZMANN W, 1959, ADV PROTEIN CHEM, V14, P1 | WoS | 9
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# | Author / Year / Journal | Recs
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121 | KAY ERM, 1952, J AM CHEM SOC, V74, P1724 | WoS | 10
|
122 | KENDREW JC, 1960, NATURE, V185, P422 | WoS | 9
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123 | KLUG A, 1960, ADV VIRUS RES, V7, P225 | WoS | 31
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124 | KLUG A, 1958, ACTA CRYSTALLOGR, V11, P199 | WoS | 24
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125 | KLUG A, 1957, BIOCHIM BIOPHYS ACTA, V25, P242 | WoS | 13
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126 | KLUG A, 1960, J MOL BIOL, V2, P201 | WoS | 10
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127 | KNIGHT CA, 1954, ADV VIRUS RES, V2, P153 | WoS | 11
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128 | KNIGHT CA, 1952, J BIOL CHEM, V197, P241 | WoS | 9
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129 | LANGRIDGE R, 1960, J MOL BIOL, V2, P19 | WoS | 44
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130 | LANGRIDGE R, 1960, J MOL BIOL, V2, P38 | WoS | 42
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131 | LANGRIDGE R, 1957, J BIOPHYS BIOCH CYTO, V3, P767 | WoS | 19
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132 | LAUFFER MA, 1944, J AM CHEM SOC, V66, P1188 | WoS | 11
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133 | LESLIE AGW, 1980, J MOL BIOL, V143, P49 | WoS | 13
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134 | LUZZATTI V, 1961, J MOL BIOL, V3, P185 | WoS | 9
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135 | MARKHAM R, 1951, DISCUSS FARADAY SOC, V11, P221 | WoS | 18
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136 | MARKHAM R, 1949, PARASITOLOGY, V39, P330 | WoS | 16
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137 | MARKHAM R, 1963, VIROLOGY, V20, P88 | WoS | 10
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138 | MARMUR J, 1959, NATURE, V183, P1427 | WoS | 11
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139 | MARVIN DA, 1961, J MOL BIOL, V3, P547 | WoS | 26
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140 | MARVIN DA, 1958, NATURE, V182, P387 | WoS | 12
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141 | MESELSON M, 1958, P NATL ACAD SCI USA, V44, P671 | WoS | 31
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142 | NIRENBERG MW, 1961, P NATIONAL ACADEMY S, V47, P1588 | WoS | 13
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143 | NIU CJ, 1955, BIOCHIM BIOPHYS ACTA, V16, P597 | WoS | 11
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144 | NIXON HL, 1960, J MOL BIOL, V2, P197 | WoS | 11
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145 | NIXON HL, 1960, VIROLOGY, V10, P157 | WoS | 10
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146 | ONSAGER L, 1949, ANN NY ACAD SCI, V51, P627 | WoS | 10
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147 | OSTER G, 1950, J GEN PHYSIOL, V33, P445 | WoS | 15
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148 | PAULING L, 1951, P NATL ACAD SCI USA, V37, P205 | WoS | 27
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149 | PAULING L, 1953, P NATL ACAD SCI USA, V39, P84 | WoS | 26
|
150 | PAULING L, 1956, ARCH BIOCHEM BIOPHYS, V65, P164 | WoS | 14
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# | Author / Year / Journal | Recs
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151 | PAULING L, 1953, NATURE, V171, P346 | WoS | 11
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152 | PERUTZ MF, 1960, NATURE, V185, P416 | WoS | 9
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153 | POHL FM, 1972, J MOL BIOL, V67, P375 | WoS | 18
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154 | REICHMANN ME, 1954, J AM CHEM SOC, V76, P3047 | WoS | 12
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155 | REICHMANN ME, 1953, J POLYM SCI, V10, P109 | WoS | 10
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156 | RICH A, 1956, J AM CHEM SOC, V78, P3548 | WoS | 16
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157 | RICH A, 1954, P NATL ACAD SCI USA, V40, P759 | WoS | 13
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158 | RICH A, 1954, NATURE, V173, P995 | WoS | 11
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159 | RICH A, 1961, J MOL BIOL, V3, P71 | WoS | 10
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160 | RICH A, 1955, NATURE, V176, P915 | WoS | 9
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161 | RILEY DP, 1951, BIOCHIM BIOPHYS ACTA, V7, P526 | WoS | 11
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162 | RODLEY GA, 1976, P NATL ACAD SCI USA, V73, P2959 | WoS | 10
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163 | ROWEN JW, 1953, BIOCHIM BIOPHYS ACTA, V10, P391 | WoS | 9
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164 | SAENGER W, 1984, PRINCIPLES NUCL ACID | WoS | 9
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165 | SCHMIDT P, 1954, BIOCHIM BIOPHYS ACTA, V14, P1 | WoS | 14
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166 | SCHRAMM G, 1947, Z NATURFORSCH B, V2, P249 | WoS | 27
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167 | SCHRAMM G, 1955, NATURE, V175, P549 | WoS | 22
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168 | SCHRAMM G, 1947, ZX NATURFORSCH B, V2, P112 | WoS | 19
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169 | SCHRAMM G, 1955, Z NATURFORSCH B, V10, P481 | WoS | 16
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170 | SCHRAMM G, 1955, Z NATURFORSCH B, V10, P493 | WoS | 13
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171 | SINSHEIMER RL, 1959, J MOL BIOL, V1, P43 | WoS | 11
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172 | SPENCER M, 1962, NATURE, V194, P1014 | WoS | 9
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173 | STANLEY WM, 1935, SCIENCE, V81, P644 | WoS | 17
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174 | STEERE RL, 1957, J BIOPHYS BIOCHEM CY, V3, P45 | WoS | 10
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175 | STUBBS G, 1977, NATURE, V267, P216 | WoS | 14
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176 | TAKAHASHI WN, 1952, NATURE, V169, P419 | WoS | 11
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177 | THOMAS R, 1954, BIOCHIM BIOPHYS ACTA, V14, P231 | WoS | 11
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178 | TSUGITA A, 1960, P NATL ACAD SCI USA, V46, P1463 | WoS | 10
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179 | WANG AHJ, 1979, NATURE, V282, P680 | WoS | 34
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180 | WANG AHJ, 1981, SCIENCE, V211, P171 | WoS | 12
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# | Author / Year / Journal | Recs
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181 | WANG AHJ, 1982, P NATL ACAD SCI USA, V79, P3968 | WoS | 10
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182 | WATSON JD, 1953, NATURE, V171, P737 | WoS | 269
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183 | WATSON JD, 1953, NATURE, V171, P964 | WoS | 96
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184 | WATSON JD, 1954, BIOCHIM BIOPHYS ACTA, V13, P10 | WoS | 84
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185 | WATSON JD, 1953, COLD SPRING HARB SYM, V18, P123 | WoS | 25
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186 | WATSON JD, 1968, DOUBLE HELIX | WoS | 10
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187 | WATSON JD, 1968, DOUBLE HELIX PERSONA | WoS | 9
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188 | WILKINS M, 1950, NATURE, V166, P127 | WoS | 9
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189 | WILKINS MHF, 1953, NATURE, V171, P738 | WoS | 134
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190 | WILKINS MHF, 1953, NATURE, V172, P759 | WoS | 41
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191 | WILKINS MHF, 1953, BIOCHIM BIOPHYS ACTA, V10, P192 | WoS | 22
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192 | WILKINS MHF, 1951, NATURE, V167, P759 | WoS | 20
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193 | WILKINS MHF, 1953, NATURE, V171, P737 | WoS | 11
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194 | WILLIAMS RC, 1951, J AM CHEM SOC, V73, P2057 | WoS | 24
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195 | WILLIAMS RC, 1952, BIOCHIM BIOPHYS ACTA, V9, P237 | WoS | 13
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196 | WILLIAMS RC, 1952, BIOCHIM BIOPHYS ACTA, V8, P227 | WoS | 11
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197 | WILLIAMS RC, 1951, J AM CHEM SOC, V73, P2062 | WoS | 10
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198 | WING R, 1980, NATURE, V287, P755 | WoS | 16
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199 | WYATT GR, 1952, J GEN PHYSIOL, V36, P201 | WoS | 9
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200 | WYATT GR, 1953, BIOCHEM J, V55, P774 | WoS | 9
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