重庆市蕨类植物区系调查和分析

重庆市有野生蕨类植物47科120属604种(含变种及以下分类单位)。其科属优势明显,其中蹄盖蕨科、金星蕨科、鳞毛蕨科和水龙骨科4个科包含了49属337种,占重庆市蕨类植物属、种总数的40.83%和55.79%;特有现象明显,地方特有种十分丰富,中国特有种和地方特有种类分别达到164种和33种;蕨类植物区系具有古老、孑遗和原始性等特点,表现出一定的热带性质或热带亲缘。     

Chromosome scaffold and structural integrity of mitotic chromosomes

Chromosome scaffold represents a continuous protein substructure revealed in isolated metaphase chromosomes after harsh extraction. According to postulates of the widespread radial loop model the scaffold plays an important role in the formation and maintenance of structural integrity of the mitotic chromosomes. Here, the data concerning the structure and major components of the chromosome scaffold are presented. The experiments suggesting that the scaffold represents a system of discrete linker proteins and the data about high mobility of scaffolding proteins are discussed. Furthermore, the data about higher-level chromatin structures (elementary chromonema and 200-250 nm fibers) and behavior of scaffolding proteins are compared. The results presented agree with the idea that at the present stage it is possible to discriminate chromatin complexes, whose structural integrity is not maintained by the chromosome scaffold.     

The conduction of tonal and compound sounds through the body of a bottlenose dolphin

The peculiarities of underwater sound conduction through the body of the Black Sea bottlenose dolphin (Tursiops truncatus p.) were investigated to elucidate the mechanisms of acoustic orientation of marine mammals. By using the method of instrumental conditioned reflexes with food reinforcement, underwater hearing thresholds in the bottlenose dolphin depending on signal parameters (tonal pulses and various noises) and sound conduction pathways were measured under conditions of full and partial (with the head out of water and sound being conducted through the body tissues) submergence of the animal into water. The underwater hearing thresholds increased by 6-27 dB upon sound conduction through the body tissues (to the least extent for tonal pulses of 10 and 20 kHz). The hearing thresholds for tonal pulses and narrow-band noises were very similar both under conditions of full and partial submergence of the animal into water.     

Molecular analysis of the Y chromosome in XX sex-reversed patients

Molecular genetic analysis was performed for 26 phenotypically male patients lacking the Y chromosome in the karyotype. The sex-determining region Y (SRY) gene was found in 77% of the patients. PCR analysis of Y-specific loci in the 17 SRY-positive patients revealed Yp fragments varying in size in 16 cases and cryptic mosaicism (or chimerism) for the Y chromosome in one case. The frequencies of class I, II, and III (Yp+)XX sex reversals were 18.75, 25.25, and 56%, respectively. All of the class III (Yp+)XX sex-reversed patients had a 3.5-Mb paracentric inversion flanked by inverted repeats 3 (IR3) on the short arm of the Y chromosome.     

Transthyretin gene V30M, H90N, and del9 mutations in cardiomyopathy patients from St. Petersburg

A search of transthyretin (TTP) gene mutations was conducted in patients with cardiomyopathies from St. Petersburg. Mutations H90N, V30M, G47A, and deletion (del9) of nucleotides GACTTCTCC in position 6776 from the start codon of the TTP gene (in position 98782 according to reference sequence AC079096 (NCBI) was found. The H90N mutation in the third exon of TTP gene was detected in a son of a cardiomyopathy patient and in his mother, which lacked any clinical manifestations. Mutations V30M and G47A in exon 2 of TTP gene were found in heterozygous and homozygous state, respectively, in one of the probands. Deletion (del9) was revealed in a patient with cardiomyopathy and in his two daughters from different marriages, who had no clinical manifestations of the disease. All the mutations revealed in this study were previously identified in other populations.     

Characterization of beam patterns of bottlenose dolphin in the transversal plane

The characteristics of the absolute auditory sensitivity of the bottlenose dolphin (Tursiops truncatus p.) in the transverse plane have been measured using short broad-band stimuli simulating dolphin clicks (with energy maximum at frequencies 8, 16, 30, 50 and 100 kHz). Experiments were performed using the method of conditioned reflexes with food reinforcement. It was shown that, in the frequency range of 8-30 kHz, the absolute sensitivity of dolphin hearing in any ventral and lateral directions of the transverse plane is only by 2-8 dB worse than in the nasal direction. Moreover, it is approximately by 25-30 dB better than at frequencies of 50-100 kHz. At frequencies of 8-30 kHz, a pronounced dorsoventral asymmetry has been observed. In this frequency range, it reaches approximately 15-18 dB whereas at frequencies of 50-100 kHz, this asymmetry decreases to 2-3 dB. In the dorsal direction, the auditory sensitivity is by 18 dB worse than in the nasal one at frequencies of around 8 kHz, and the difference rises smoothly to 33 dB at frequencies of about 100 kHz. At frequencies of 50-100 kHz, the acoustical thresholds of the cross-section plane in comparison with thresholds for the with nasal direction get worse almost uniformly in all directions by 25-33 dB. As a result, in the transversal plane, the beam patterns have a nearly circular form, unlike the patterns at frequencies of 8-30 kHz. The results are discussed in terms of the model of sound perception through the left and right mental foramens. The biological expediency of the asymmetry is emphasized.