T*he initial stages of rehydration of salmon sperm deoxyribonucleic acid (DNA) lyophilizates were observed using hydration kinetics, sorption isotherm, and high power proton relaxometry (at 30 MHz). T*he hydration kinetics reveals (i) a very tightly bound water not removed by incubation over silica gel (A_0^{h} = 0.057 ± 0.010), (ii) a tightly bound water [saturating at A_1^{h} = 0.149 ± 0.007, hydration time t_1^{h} = (0.27 ± 0.08) h], a tightly bound water (iii) [saturating at A_2^{h} = 0.694 ± 0.039, with the hydration time t_2^{h} = (9.8 ± 3.2) h], and (iv) a loosely bound water fraction for the samples hydrated at p/p_{0} ≥ 76% [with the hydration time t_3^{h} = (44 ± 14) h, and the contribution progressively increasing with the air humidity]. For the hydration at p/p_{0} = 100%, after t_{0} = (244 ± 22) h of incubation the swelling process begins. T*he amount of additional water uptake at swelling depended on the macrostructure of the sample. Sorption isotherm is sigmoidal in form and is fitted well by the Dent model with the mass of water saturating primary binding sites Δ M/m_{0} = 0.114. Proton free induction decay is a superposition of the immobilized proton signal (Gaussian, with T*_{2S} ≈ 20 μs) and two liquid signal components coming from tightly bound (T*_{2L_1} ≈ 100 μs, with the mass saturating at Δ m/m_{0} = 0.111 ± 0.044) and loosely bound water fraction (with the amplitude proportional to the mass of water added).
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