Enhanced unscheduled DNA synthesis in the cotyledons of Gossypium,barbadense L. by ethyl methanesulfonate (EMS)

When cotyledonary tissue of $\text{G.}\text{,}\text{barbadense}$ cotton are treated with the mutagen ethyl methanesulfonate and then germinated, an enhanced, unscheduled DNA synthesis response is observed, along with a concomitant increase in the thymidine triphosphate precursor pool size. The implications of these results are discussed in this paper.     

Chlamydia isopodii sp. n., an obligate intracellular parasite of Porcellio scaber

In an ultrastructural study of the hepatopancreas of Porcellio scaber, an obligate intracellular parasite, Chlamydia, was noted in the epithelial cells. Although the infection was found to extend the entire length of the hepatopancreas, it was most extensive in the glandular region. Indirect immunofluorescence testing revealed no cross-reactivity with either lymphogranuloma venereum or psittacosis antisera.     

On the non-existence of a tryptic peptide with biological activity derived from mouse nerve growth factor

Reverse-phase high-performance liquid chromatography was used to analyse the products of treatment of mouse nerve growth factor with cyanogen bromide followed by trypsin as described by Mercanti et al. All the biological activity was found to be due to incompletely cleaved starting material. Total digestion with trypsin led to complete loss of activity.     

Using affinity capillary electrophoresis to study the interaction of the extracellular binding domain of erythropoietin receptor with peptides.

We have shown that affinity capillary electrophoresis (ACE) can be utilized to screen peptides that bind to the extracellular binding domain of the erythropoietin receptor (EBP). The comparison of the cyclic peptides GGTYSCHFGPLTWVCKPQGG (EMP1) GGTYSCHFGPLTAVCKPQGG (EMP13), and LGRKYSCHFGPLTWVCQPAKKD (EMP37) with the linear peptides HFGPLTWV (EMP26) and FMRF as ACE buffer additives were investigated. When EMP1 and EMP37 were the buffer additives, an abrupt change in the electrophoretic mobility of EBP was observed in the electropherogram. When EMP13, EMP26, and FMRF were examined under identical ACE conditions as EMP1 and EMP37, no significant change in the electrophoretic mobility of EBP was observed. These results correlate well with previously reported IC50 competitive binding data; that is, EMP1 and EMP37 bind to EBP while EMP13 and EMP26 bind very weakly. These observations strongly infer that peptide.EBP dimerization were induced by EMP1, and EMP37 but not by EMP13, EMP26 or FMRF. This ACE method provides a rapid tool for the detection of small peptides or drugs that bind to EBP.     

Behavior ofPseudomonas fluorescens within the hydrodynamic boundary layers of surface microenvironments

Phase, darkfield, and computer-enhanced microscopy were used to observe the surface microenvironment of flow cells during bacterial colonization. Microbial behavior was consistent with the assumptions used previously to derive surface colonization kinetics and to calculate surface growth and attachment rates from cell number and distribution. Surface microcolonies consisted of closely packed cells. Each colony contained 2ⁿ cells, where n is the number of cell divisions following attachment. Initially, cells were freely motile while attached, performing circular looping movements within the plane of the solid-liquid interface. Subsequently, cells attached apically, maintained a fixed position on the surface, and rotated. This type of attachment was reversible and did not necessarily lead to the formation of microcolonies. Cells became irreversibly attached by progressing from apical to longitudinal attachment. Longitudinally attached cells increased in length, then divided, separated, moved apart laterally, and slid next to one another. This resulted in tight cell packing and permitted simultaneous growth and adherence. After approximately 4 generations, individual cells emigrated from developing microcolonies to recolonize the surface at new locations. Surface colonization byPseudomonas fluorescens can thus be subdivided into the following sequential colonization phases: motile attachment phase, reversible attachment phase, irreversible attachment phase, growth phase, and recolonization phase.     

Effects of nonapeptide antagonists on oxytocin- and arginine-vasopressin-induced analgesia in mice

Several peptides, including arginine-vasopressin (AVP), neurotensin, and substance P, produce analgesia that is not mediated by opiate systems. Using the hot plate test, we studied the analgesic effects of intracisternal (i.c.) administration of various doses of the nonapeptide oxytocin (OXY) in Swiss-Webster mice. We found that OXY (1-4 micrograms) significantly increased the latency of animals to jump or lick their paws after placement on a hot plate. This effect was not blocked by naloxone pretreatment, which suggests that it is not opiate dependent. Using the hot plate test, we confirmed that AVP (1 and 4 micrograms) also produces analgesia. We then studied the analgesia produced by OXY and by AVP using 3 nonapeptide analogues with antagonist properties: [Pen1, LpMePhe2, Thr4, Orn8]OXY (PLMPTO-OXY) that has anti-oxytocic properties in the uterine contraction assay, d(CH2)5Tyr(Me)AVP(dTM-AVP) which antagonizes the antidiuretic properties of AVP and d(CH2)5D-Ile2,Abu4-AVP (dIA-AVP) which antagonizes the vasopressor effects of AVP. Simultaneous administration of PLMPTO-OXY completely blocked the analgesia produced by OXY whereas the antidiuretic antagonist dIA-AVP partially blocked OXY-induced analgesia and dTM-AVP had no effect. None of the antagonists used blocked AVP-induced analgesia. We concluded that the neural systems mediating the analgesic effects of i.c. OXY differ from those for AVP.     

High and low dietary potassium effects on rat vascular sodium pump activity

Studies of renal and other tissues suggest that chronic elevation or reduction of dietary potassium intake could affect vascular smooth muscle sodium pump (Na-pump) activity. To examine this possibility, the effects of 3 weeks of low (LK: 4 mmole KCl/kg chow), normal (NK; 162 mmole/kg), and high (HK; 1350 mmole/kg) dietary potassium intake on Na-pump activity, the Na-pump activity response to changes in extracellular potassium concentration, and Na-pump site density were determined in tail arteries of rats. Plasma potassium concentration was elevated by 21% in HK rats and reduced by 45% in LK rats. When incubated in autologous plasma, compared to arteries from NK rats, Na-pump activity was decreased in the tail arteries from LK rats but not altered in those from HK rats. When arteries from NK and LK rats were incubated in autologous plasma with the potassium concentration increased to equal that of the HK rats, Na-pump activity exceeded that of HK rat arteries: Na-pump activity of arteries incubated in autologous plasma did not differ from that of arteries incubated in Krebs-Henseleit buffer with the potassium concentration adjusted to equal that of the plasma. Tail artery Na-pump activity for all three dietary potassium groups increased as potassium concentration of the incubation medium was increased from 1 to 12 mM; Na-pump activity was similar for the NK and LK rats at all potassium concentrations, but Na-pump activity of HK rat arteries was less than that of NK arteries at high extracellular potassium concentrations. Na-pump site density was not altered by either HK or LK diet. It is concluded that in tail arteries of rats fed the LK diet, chronically decreased extracellular potassium results in chronically decreased Na-pump activity. In contrast, an adaptive change occurs in tail arteries of rats fed HK diet, such that Na-pump activity remains at normal levels despite elevated extracellular potassium; this adaptive response to chronically increased dietary potassium does not appear to be the result of decreased Na-pump site density.