Iavarone Anthony T, Williams Evan R
Contribution from the Department of Chemistry, University of California, Berkeley, California 94720-1460, USA.
J Am Chem Soc. 2003 Feb 26;125(8):2319-27. doi: 10.1021/ja021202t.
The origin of the extent of charging and the mechanism by which multiply charged ions are formed in electrospray ionization have been hotly debated for over a decade. Many factors can affect the number of charges on an analyte ion. Here, we investigate the extent of charging of poly(propyleneimine) dendrimers (generations 3.0 and 5.0), cytochrome c, poly(ethylene glycol)s, and 1,n-diaminoalkanes formed from solutions of different composition. We demonstrate that in the absence of other factors, the surface tension of the electrospray droplet late in the desolvation process is a significant factor in determining the overall analyte charge. For poly(ethylene glycol)s, 1,n-diaminoalkanes, and poly(propyleneimine) dendrimers electrosprayed from single-component solutions, there is a clear relationship between the analyte charge and the solvent surface tension. Addition of m-nitrobenzyl alcohol (m-NBA) into electrospray solutions increases the charging when the original solution has a lower surface tension than m-NBA, but the degree of charging decreases when this compound is added to water, which has a higher surface tension. Similarly, the charging of cytochrome c ions formed from acidified denaturing solutions generally increases with increasing surface tension of the least volatile solvent. For the dendrimers investigated, there is a strong correlation between the average charge state of the dendrimer and the Rayleigh limiting charge calculated for a droplet of the same size as the analyte molecule and with the surface tension of the electrospray solvent. A bimodal charge distribution is observed for larger dendrimers formed from water/m-NBA solutions, suggesting the presence of more than one conformation in solution. A similar correlation is found between the extent of charging for 1,n-diaminoalkanes and the calculated Rayleigh limiting charge. These results provide strong evidence that multiply charged organic ions are formed by the charged residue mechanism. A significantly smaller extent of charging for both dendrimers and 1,n-diaminoalkanes would be expected if the ion evaporation mechanism played a significant role.
在电喷雾电离中,电荷积累的程度起源以及多电荷离子形成的机制已经激烈争论了十多年。许多因素会影响分析物离子上的电荷数量。在此,我们研究了由不同组成溶液形成的聚(丙烯亚胺)树枝状大分子(3.0代和5.0代)、细胞色素c、聚(乙二醇)以及1,n - 二氨基烷烃的电荷积累程度。我们证明,在不存在其他因素的情况下,去溶剂化过程后期电喷雾液滴的表面张力是决定分析物总电荷的一个重要因素。对于从单组分溶液中电喷雾的聚(乙二醇)、1,n - 二氨基烷烃和聚(丙烯亚胺)树枝状大分子,分析物电荷与溶剂表面张力之间存在明确的关系。当原始溶液的表面张力低于间硝基苄醇(m - NBA)时,将m - NBA添加到电喷雾溶液中会增加电荷积累,但当将该化合物添加到表面张力较高的水中时,电荷积累程度会降低。同样,由酸化变性溶液形成的细胞色素c离子的电荷积累通常会随着最不易挥发溶剂表面张力的增加而增加。对于所研究的树枝状大分子,树枝状大分子的平均电荷态与为与分析物分子大小相同且具有电喷雾溶剂表面张力的液滴计算出的瑞利极限电荷之间存在很强的相关性。对于由水/m - NBA溶液形成的较大树枝状大分子,观察到双峰电荷分布,这表明溶液中存在不止一种构象。在1,n - 二氨基烷烃的电荷积累程度与计算出的瑞利极限电荷之间也发现了类似的相关性。这些结果提供了有力证据,表明多电荷有机离子是通过带电残基机制形成的。如果离子蒸发机制起重要作用,预计树枝状大分子和1,n - 二氨基烷烃的电荷积累程度会显著更小。