J. B. Hobbs scite author profile

We have investigated (123)I and (125)I DNA aptamer analogs of anticoagulant DNA aptamers to thrombin exosite 1 and exosite 2 for thrombus imaging potential. Two severe problems are rapid clearance from circulating blood and blood nuclease. With aptamers (unlike antisense) the nucleotide analogs used in polymerase chain reaction-selection cycles also must be used in the radiotracer. We investigated 3'-biotin-streptavidin (SA) bioconjugates of the aptamers to alleviate these problems. Blood nuclease assays and biodistribution analysis were used in the mouse and rabbit. We found that 3'-biotin protected the aptamers significantly from blood nuclease in vitro, but it did not slow in vivo clearance. In contrast, the 3'-biotin-SA bioconjugates were resistant to blood nuclease in vitro and were also longer-lived (10-20 times) in vivo. Bioconjugate aptamers retained affinity for thrombin. Two solutions emerge: 1) In noncirculating blood (within a thrombus) 3'-biotin extends aptamer lifetime, whereas 2) in circulating blood (the transport medium), where more aggressive clearance is encountered, 3'-SA extends aptamer lifetime.

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[32] The active site of ribonucleoside diphosphate reductase

Thelander¹,

Hobbs²,

Eckstein³

1977

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Polynucleotides containing 2'-amino-2'-deoxyribose and 2'-azido-2'-deoxyribose

Hobbs¹,

Sternbach²,

Sprinzl³

et al. 1973

Biochemistry

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Morphologic evidence that analgesic-induced kidney pathology contributes to the progression of tumors of the renal pelvis

Stewart

Hobbs

McCredie

1999

Cancer

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J. B. Hobbs

Extending the lifetime of anticoagulant oligodeoxynucleotide aptamers in blood

[32] The active site of ribonucleoside diphosphate reductase

Polynucleotides containing 2'-amino-2'-deoxyribose and 2'-azido-2'-deoxyribose

Morphologic evidence that analgesic-induced kidney pathology contributes to the progression of tumors of the renal pelvis

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