利用“冷冻断裂”技术证明了钛蛋白细丝的弹性特性。

K Trombitás, G H Pollack, J Wright, K Wang
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引用次数: 29

摘要

一种“冻裂”技术(Trombitás, K.: Acta biochem .)。Biophys。Hung. 6:41 19-427, 1971)和免疫电镜研究了titin丝的弹性特性。小束新鲜制备的兔腰肌纤维在液氮下快速冷冻和断裂,在垂直于纤维轴的平面上沿肌节的每个不同区域断裂。冷冻标本在固定期间解冻,使弹性细丝收缩。然后用针对i带独特表位的单克隆抗titin抗体标记破碎的标本。titin表位通常沿z线对称定位。然而,在a - i连接处断裂的肌节中,表位不再保持对称:断裂的半肌节中的肌蛋白丝缩回,独立于细丝,在z线附近形成致密带。缩回密度明显未达到z线;收缩停止在所谓的n1线水平。在z线水平断裂的肌节中,肌球蛋白丝向相反方向缩回。在这种情况下,titin表位一直缩回到粗细丝的末端。这样看来,titin分子在大部分i波段形成了独立于细丝的弹性细丝。然而,在z线附近,titin细丝要么具有非弹性结构域,要么在n1线水平上与细丝紧密结合。
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Elastic properties of titin filaments demonstrated using a "freeze-break" technique.

A "freeze-break" technique (Trombitás, K.: Acta Biochim. Biophys. Hung. 6:419-427, 1971) and immunoelectron microscopy were used to study the elastic properties of titin filaments. Small bundles of freshly prepared rabbit psoas muscle fibers were quickly frozen and broken under liquid nitrogen to fracture sarcomeres in planes perpendicular to the filament axis, in each of various regions along the sarcomere. The still-frozen specimens were thawed during fixation to allow elastic filaments to retract. The broken specimens were then labelled with monoclonal anti-titin antibodies against an unique epitope in the I-band. The titin epitopes were normally positioned symmetrically about the Z-line. However, in sarcomeres broken at the A-I junction, the epitopes no longer remained symmetrical: the titin filaments in the broken half-sarcomere retracted, independently of the thin filaments, forming a dense band just near the Z-line. The retracted density apparently did not reach the Z-line; retraction stopped at the level of the so-called N1-line. In sarcomeres broken at the Z-line level, the titin filaments retracted in the opposite direction. In this case the titin epitope retracted all the way to the ends of the thick filaments. It appears then that titin molecules form elastic filaments that are independent of thin filaments in most of the I-band. Near the Z-line, however, the titin filaments either have an inelastic domain or associate firmly with the thin filaments at the N1-line level.

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