Association of a DNA marker with Hessian fly resistance gene H9 in wheat

The Hessian fly [Mayetiola destructor (Say)] is a major pest of wheat (Triticum aestivum L.) and genetic resistance has been used effectively over the past 30 years to protect wheat against serious damage by the fly. To-date, 25 Hessian fly resistance genes, designated H1 to H25, have been identified in wheat. With near-isogenic wheat lines differing for the presence of an individual Hessian fly resistance gene, in conjunction with random amplified polymorphic DNA (RAPD) analysis and denaturing gradient-gel electrophoresis (DGGE), we have identified a DNA marker associated with the H9 resistance gene. The H9 gene confers resistance against biotype L of the Hessian fly, the most virulent biotype. The RAPD marker cosegregates with resistance in a segregating F₂ population, remains associated with H9 resistance in a number of different T. aestivum and T. durum L. genetic backgrounds, and is readily detected by either DGGE or DNA gel-blot hybridization.Purdue University, Agric. Exp. Stn. Journal paper No. 14440     

Effects of membrane potential on just detectable movement in rat skeletal muscle: Effects of denervation

The potential, Vt, at which a brief test depolarization first elicited movement was determined using two-microelectrode point voltage clamp. We expected that inactivation of excitation-contraction coupling at conditioning potentials between ?60 and 0 mV would shift Vt to more positive potentials, and that fibers would become inactivatable with less conditioning depolarization in EDL than soleus. The curve relating Vt to conditioning potential had a negative slope (which was insensitive to addition of 1 mm cobalt or replacement of calcium with 20 mm CaEGTA) between ?60 and ?35 mV and a steep positive slope with further depolarization. Unexpectedly, fibers became inactivatable with less conditioning depolarization in soleus than in EDL when Vt was measured with 50 msec test pulses. However, the positive shift in Vt became less steep as test pulse duration lengthened in soleus fibers. When Vt obtained with test pulses approaching rheobase (10 msec in EDL and 500 msec in soleus) was compared, EDL fibers became inactive with less conditioning depolarization than soleus fibers. The increase in Vt became steeper with 1 mm cobalt or 20 mm CaEGTA and was shifted to more positive potentials by denervation in soleus fibers. We conclude that inactivation (i) does not strongly influence threshold contractions at conditioning potentials between ?60 and ?40 mV and (ii) influences Vt between ?40 and 0 mV in a manner that depends on test pulse duration.     

Nodule activity and allocation of photosynthate of soybean during recovery from water stress

Nodulated soybean plants (Glycine max [L.] Merr. cv Ransom) in a growth-chamber study were subjected to a leaf water potential (psi w) of -2.0 megapascal during vegetative growth. Changes in nonstructural carbohydrate contents of leaves, stems, roots, and nodules, allocation of dry matter among plant parts, in situ specific nodule activity, and in situ canopy apparent photosynthetic rate were measured in stressed and nonstressed plants during a 7-day period following rewatering. Leaf and nodule psi w also were determined. At the time of maximum stress, concentration of nonstructural carbohydrates had declined in leaves of stressed, relative to nonstressed, plants, and the concentration of nonstructural carbohydrates had increased in stems, roots, and nodules. Sucrose concentrations in roots and nodules of stressed plants were 1.5 and 3 times greater, respectively, than those of nonstressed plants. Within 12 hours after rewatering, leaf and nodule psi w of stressed plants had returned to values of nonstressed plants. Canopy apparent photosynthesis and specific nodule activity of stressed plants recovered to levels for nonstressed plants within 2 days after rewatering. The elevated sucrose concentrations in roots and nodules of stressed plants also declined rapidly upon rehydration. The increase in sucrose concentration in nodules, as well as the increase of carbohydrates in roots and stems, during water stress and the rapid disappearance upon rewatering indicates that inhibition of carbohydrate utilization within the nodule may be associated with loss of nodule activity. Availability of carbohydrates within the nodules and from photosynthetic activity following rehydration of nodules may mediate the rate of recovery of N2-fixation activity.     

Occurrence of neonatal and postnatal mortality in range beef cattle. II. Factors contributing to calf death

Results are summarized of necropsy findings from 798 calves lost from birth to weaning over a 15-yr period. Autopsies determined cause of death and ascertained anatomical normalcy of the skeletal, musculature and organ systems and functinal status of the lungs. Of the 798 calves, 77.7% were anatomically normal and 22.3% were abnormal (P < 0.01) and 75.0% of the total deaths of abnormal calves occurred by Day 2 postpartum. Birth weights of normal calves averaged 4.2 kg heavier (P < 0.05) than that of abnormal calves. Internal hydrocephalus was identified and confirmed heritable as a lethal recessive trait. The number of calves lost from dystocia (406 calves, 50.9%) exceeded losses from all other causes (392 calves, 49.1%). Lung status was determined for 492 calves dying at birth, with 39.6 and 60.4% having functional and nonfunctional lungs, respectively (P < 0.01). Diseases, mainly scours and pneumonia, ranked second in importance as cause of death (12.8%), followed by exposure-chilling (5.6%) due to cold and wet conditions. Abnormalities observed included heart anomalies (24 calves), hydrocephalus (38 calves) and a missing segment of the caudal gut (8 calves). Multiple congenital malformations were found in 15 calves with findings similar to those resulting from maternal consumption of toxins from poison hemlock (Conium maculatum) during gestation. Twelve calves died from peritonitis resulting from a perforated abomasal ulcer caused by accumulated hair. Of the 373 dystocia deaths in anatomically normal calves, 121 (32.4%) involved abnormal presentation, with calves involved in backward or breech presentation accounting for 62.0% of the losses from abnormal presentation. Calves experiencing hiplock or retained forelimb were heavier (P < 0.05) than calves presented in normal, back-ward or breech positions. Dystocia scores were assigned to 253 calves dying at parturition. Percentage losses within score were 52.6, 6.7, 30.8 and 9.9 (P < 0.05) and birth weights were 33.9, 36.1, 39.2 and 37.4 kg (P < 0.05) for scores of 1, 2, 3 and 4, respectively.