Seminal vesicle secretion of African catfish, its composition, its behaviour in water and saline solutions and its influence on gamete fertilizability

The seminal vesicle secretion (SVS) of the African catfish, Clarias gariepinus, was investigated by analytical and experimental methods. SVS consists mainly of proteins and glycoproteins which are responsible for its viscous and sticky nature. The secretion contains also high activities of acid phosphatase, alkaline phosphatase, and proteases. These catabolic enzymes do not have functions in autolysis or liquefaction of SVS but are considered to eliminate aging spermatozoa from the proximal portions of seminal vesicle and from the spermatic duct. SVS of the African catfish is unstable in the environment relevant for natural spawning. When SVS was mixed with water, seminal plasma or different types of saline solutions its protein coagulated forming fibrous or granular particles of variable size within a few seconds. Pure SVS completely inhibited the motility as the sticky secretion hindered spermatozoa in free swimming. SVS had also a negative effect on sperm fertility, egg fertility, and sperm egg contact, as the fertilization was drastically suppressed in the presence of SVS. Basing on our analytical and experimental results we exclude that SVS has functions in stabilizing the viability of spermatozoa stored in the spermatic ducts or is an energy resource of spermatozoa. It also does not improve or stabilize the fertilization process and has no functions in adhering the eggs to substrates or in covering the eggs for mechanical protection or antibacterial defense. A function of SVS in the male and female communication during the prenuptial spawning behaviour is discussed.     

Autophagy: Mechanisms, regulation, and its role in tumorigenesis

Autophagy (from Greek “auto” — self, “phagos” — to eat) is the major catabolic process involved in the delivery and lysosomal degradation of long-lived intracellular components: proteins, lipids, nucleic acids, and organelles. Since the discovery of genes involved in regulation of autophagy in the 1990s, there has been a significant increase in studies of autophagy as a process involved in maintaining cellular homeostasis, as well as its role in the development of different pathologies. This review focuses on the basics of autophagy and its regulatory mechanisms. The role of autophagy in the maintenance of cellular homeostasis and tumorigenesis is also discussed.     

Biotin in microbes,the genes involved in its biosynthesis,its biochemical role and perspectives for biotechnological production

Biotin (vitamin H) is one of the most fascinating cofactors involved in central pathways in pro- and eukaryotic cell metabolism. Since its original discovery in 1901, research has led to the discovery of the complete biotin biosynthesis pathways in many different microbes and much work has been done on the highly intriguing and complex biochemistry of biotin biosynthesis. While humans and animals require several hundred micrograms of biotin per day, most microbes, plants and fungi appear to be able to synthesize the cofactor themselves. Biotin is added to many food, feed and cosmetic products, creating a world market of 10-30 t/year. However, the majority of the biotin sold is synthesized in a chemical process. Since the chemical synthesis is linked with a high environmental burden, much effort has been put into the development of biotin-overproducing microbes. A summary of biotin biosynthesis and its biological role is presented; and current strategies for the improvement of microbial biotin production using modern biotechnological techniques are discussed.     

Biodiversity in Ramogi Hill, Kenya, and its evolutionary significance

The bulk of Kenyan forests are in the afromontane biogeographical region, but the Lake Victoria basin and its biota have been referred to by many biogeographers as an eastern fragment of the Guineo-congolian forest. The Ramogi Hill forest in the lake basin receives an annual rainfall of less than 400 mm. Although much of its biota is typical of the Guineo-congolian region, several species of insects, birds, mammals and plants have been known to occur in the lowland forests of the Kenyan coast. The presence of taxa in these forests has been attributed to past geological changes and climatic fluctuations during the pleistocene period. Migration and dispersal of taxa have been suggested to have been through Kenya Rift or via the southern route of Rukwa Rift. The biodiversity studies conducted indicate that Ramogi Hill has low animal diversity compared to other forests. However, the importance of Ramogi Hill may be linked to its biological resources, and cultural and religious values accrued by the surrounding local communities. The preservation of Ramogi Hill as a reference point for biodiversity and sacred sites will depend a lot on the influence and participation of communities in biodiversity conservation and management programmes.     

Catalytic RNA,ribozyme, and its applications in synthetic biology

Ribozymes are functional RNA molecules that can catalyze biochemical reactions. Since the discovery of the first catalytic RNA, various functional ribozymes (e.g., self-cleaving ribozymes, splicing ribozymes, RNase P, etc.) have been uncovered, and their structures and mechanisms have been identified. Ribozymes have the advantage of possessing features of “RNA” molecules; hence, they are highly applicable for manipulating various biological systems. To fully employ ribozymes in a broad range of biological applications in synthetic biology, a variety of ribozymes have been developed and engineered. Here, we summarize the main features of ribozymes and the methods used for engineering their functions. We also describe the past and recent efforts towards exploiting ribozymes for effective and novel applications in synthetic biology. Based on studies on their significance in biological applications till date, ribozymes are expected to advance technologies in artificial biological systems.     

The epibranchial organ,its innervation and its probable functioning in Heterotis niloticus (Pisces,teleostei, osteoglossidae)

Synopsis The high level of encephalization in Heterotis niloticus is due, in part, to a voluminous lobus vagalis, which has the form of a cauliflower and receives the fibers of a strong branch of the 10^th (vagal) nerve. This vagal branch comes from a special branchial apparatus, the epibranchial organ, considered to be an air-breathing organ by some, and a microphagous apparatus by others. This organ has a spiral, snail-like form and its lumen is a blind-alley. Its study in a juvenile fish 10 cm SL shows that it has two canals: a peripheric one for water entrance and a central one for food exit. The epithelium between these two canals contains numerous gustatory buds, the innervation of which constitutes the branch of the vagal nerve. This epithelium is also very rich in mucous cells, which probably correspond to a muco-microphagous feeding apparatus. The exit canal, which receives the mucous string enriched with food particles, enters directly into the oesophagus. Striated muscles, attaching along the spiral tours of the epibranchial organ, probably serve as the motor that pumps water in and out and supplies the classical ciliary apparatus of the mucophagous feeding organs.     

Phenylalanine ammonia-lyase: Regulation of its induction,and its role in plant development

The properties of phenylalanine ammonia-lyase from higher plants and its position in phenylpropanoid metabolism are briefly reviewed. Emphasis is then     

Food restriction,ghrelin, its antagonist and obestatin control expression of ghrelin and its receptor in chicken hypothalamus and ovary

The purpose of the present study was to identify the role of age, nutritional state and some metabolic hormones in control of avian hypothalamic and ovarian ghrelin/ghrelin receptor system. We examined the effect of food restriction, administration of ghrelin 1–18, ghrelin antagonistic analogue (D-Lys-3)-GHRP-6, obestatin and combinations of them on the expression of ghrelin and ghrelin receptor (GHS-R1a) in hypothalamus and ovary of old (23 months of age) and young (7 months of age) chickens. Expression of mRNAs for ghrelin and GHS-R1a in both hypothalamus and largest ovarian follicle was measured by RT-PCR. It was observed that food restriction could promote the expression of ghrelin and GHS-R1a in hypothalamus and ovary of the old chickens, but in the young chickens it reduced expression of ghrelin and did not affect expression of GHS-R1a in the ovary. Administration of ghrelin 1–18 did not affect hypothalamic or ovarian ghrelin mRNA, but significantly increased the expression of GHS-R1a in hypothalamus, but not in ovary. (D-Lys-3)-GHRP-6, significantly stimulated accumulation of ghrelin, but not GHS-R1a mRNA in hypothalamus or ghrelin or GHS-R1a in the ovary. Ghrelin 1–18 and (D-Lys-3)-GHRP-6, when given together, were able either to prevent or to induce effect of these hormones. Obestatin administration increased expression of ghrelin gene in the hypothalamus, but not expression of hypothalamic GHS-R1a, ovarian ghrelin and GHS-R1a. Furthermore, obestatin was able to modify effect of both ghrelin and fasting on hypothalamic and ovarian mRNA for ghrelin GHS-R1a. Our results (1) confirm the existence of ghrelin and its functional receptors GHS-R1a in the chicken hypothalamus and ovary (2) confirm the age-dependent control of ovarian ghrelin by feeding, (3) demonstrate, that nutritional status can influence the expression of both ghrelin and GHS-R1a in hypothalamus and in the ovary (3) demonstrates for the first time, that ghrelin can promote generation of its functional receptor in the hypothalamus, but not in the ovary, (4) show that ghrelin1–18 and (D-Lys-3)-GHRP-6 could not only be antagonists in the action on chicken hypothalamus and ovaries, but also independent regulators and even agonists, and (5) provide first evidence for action of obestatin on hypothalamic ghrelin and on the response of hypothalamic and ovarian ghrelin/GHS-R1a system to food restriction. These data indicate the involvement of both hypothalamic and ovarian ghrelin/GHS-R1 systems in mediating the effects of nutritional status, ghrelin and obestatin on reproductive processes.     

Stride length and its determinants in humans, early hominids, primates, and mammals

Primate stride lengths during quadrupedal locomotion are very long when compared to those of nonprimate quadrupedal mammals at the speed of trot/gallop transition. These exceptional lengths are a consequence of the relatively long limbs of primates and the large angular excursions of their limbs during quadrupedalism. When quadrupedal primates employ bipedal gaits they exhibit much lower angular excursions. Consequently their bipedal stride lengths do not appear to be exceptional in length when compared to other mammals. Angular excursions of the lower limbs of modern humans are not exceptionally large. However, when running, humans exhibit relatively long periods of flight (i.e., they have low duty factors) when compared to other mammals including primates. Because of these long periods of flight and their relative long lower limbs, humans have running stride lengths that are at the lower end of the range of stride lengths of quadrupedal primates. The stride length of the Laetoli hominid trails are evaluated in this context.