Holmquist G
Chromosoma. 1979 Apr 30;72(2):203-24. doi: 10.1007/BF00293235.
C-banding of chromosomes involves the differential solubilization of fragmented DNA from euchromatin by three sequential treatments: 1. Acid, 2. Mild base, 3. Hot salt. The data indicate solubilization is effected by 1) depurination, 2) DNA denaturation, 3) chain breakage of the depurinated sites respectively in the three treatments. Conditions were found wherein each treatment in proper sequence was necessary for C-banding and the appropriate chemical reactions were measured in these treatment conditions. The acid treatment (0.2 N HCl) depurinates chromosomal DNA at the rate of 0.26 x 10(-6) purines/dalton min to an alkaline molecular weight of 10(5) daltons but does not break the depurinated sites. Bleomycin can substitute for acid as a base removing agent. Sodium borohydride, by reducing the depurinated sugar's aldehyde thereby preventing chain breakage by the beta-elimination reaction, reversibly inhibits DNA-extraction. Chain breakage at the DNA's apurinic sites occurs not in the 2 min mild alkali treatment where the half-life for breakage is 26 min but in the 18 h hot salt treatment where the half-life for chain breakage is 1-2 h. Most of the DNA extraction occurs in the hot salt as 10(5) dalton fragments as measured in formamide gradients. Bleomycin is introduced as a substitute for HCl; it removes nitrogenous bases from DNA in situ while better preserving the morphology of the final C-banded chromosomes.
染色体的C带技术涉及通过三种连续处理使常染色质中碎片化的DNA发生差异性溶解:1. 酸处理,2. 弱碱处理,3. 热盐处理。数据表明,溶解分别通过以下方式实现:1)脱嘌呤作用,2)DNA变性,3)三种处理中脱嘌呤位点的链断裂。发现了这样的条件,即每种处理按适当顺序对于C带技术都是必要的,并且在这些处理条件下测量了相应的化学反应。酸处理(0.2N HCl)使染色体DNA以0.26×10⁻⁶嘌呤/道尔顿·分钟的速率脱嘌呤,直至碱分子量达到10⁵道尔顿,但不会使脱嘌呤位点断裂。博来霉素可替代酸作为碱基去除剂。硼氢化钠通过还原脱嘌呤糖的醛基从而防止β-消除反应导致的链断裂,可逆地抑制DNA提取。DNA无嘌呤位点的链断裂并非发生在2分钟的弱碱处理中(链断裂的半衰期为26分钟),而是发生在18小时的热盐处理中(链断裂的半衰期为1 - 2小时)。如在甲酰胺梯度中所测量的,大部分DNA提取发生在热盐处理中,形成10⁵道尔顿的片段。引入博来霉素作为HCl的替代物;它能原位去除DNA中的含氮碱基,同时更好地保留最终C带染色体的形态。
