The hematobiochemical status of Wistar rat line under the bovine leukemia virus experimental infection.

AIM: This study aimed to elucidate the ability of the bovine leukemia virus (BLV) to integrate into cells of heterologous organisms, in particular, Wistar rats, and examine the manifestations of the pathological process that could be seen in them. MATERIALS AND METHODS: Wistar rats - were divided into three groups. The first group (I) was fed milk of intact cows, the second (II) - milk of BLV-infected cows, and the third (III) - milk of cows, clinically BLV sick. Rats of all groups were divided into two subgroups: In the subgroup "a", there were adult rats, and in the subgroup "b", their offspring were included. At 3, 6, 9, and 12 months from the start of the experiment, the animals' blood of each group was examined by polymerase chain reaction (PCR) and enzyme-linked immunosorbent assay for the presence of BLV provirus and specific anti-leukemia antibodies. A general and biochemical blood test was performed; pathological changes in the internal organs were recorded. RESULTS: Using the PCR, the BLV infection was established in all experimental rats, whose immune response was expressed in varying degrees. At the initial stage of the infection, offspring rats were born healthy. The rats of the control groups Ia and Ib were intact to the BLV throughout the experiment. The biochemical blood tests have shown several signs of intoxication, endocrine disorders, and development of malignant processes in the experimental animals. There are also signs of liver, kidney, and myocardial damages, regardless of whether milk is infected or the cows are clinically leukemic. By the time, the experimental rats developed persistent thrombocytosis with an increase in the average volume of the blood platelets, which may be evidence of the leukemia infection by the megakaryocytic type. The most pronounced character of the change was in the offspring generation. CONCLUSION: Wistar rats can be considered as a suitable laboratory model to study the BLV pathogenesis. Rats are not BLV natural host, however, they developed the pathognomonic BLV infection symptoms when they were fed infected and leukemic cow's milk.

Characterization of a dominant mutation for the liguleless trait: Aegilops tauschii liguleless (Lgt).

BACKGROUND: Leaves of Poaceae have a unique morphological feature: they consist of a proximal sheath and a distal blade separated by a ligular region. The sheath provides structural support and protects young developing leaves, whereas the main function of the blade is photosynthesis. The auricles allow the blade to tilt back for optimal photosynthesis and determine the angle of a leaf, whereas the ligule protects the stem from the entry of water, microorganisms, and pests. Liguleless variants have an upright leaf blade that wraps around the culm. Research on liguleless mutants of maize and other cereals has led to identification of genes that are involved in leaf patterning and differentiation. RESULTS: We characterized an induced liguleless mutant (LM) of Aegilops tauschii Coss., a donor of genome D of bread wheat Triticum aestivum L.. The liguleless phenotype of LM is under dominant monogenic control (Lgt). To determine precise position of Lgt on the Ae. tauschii genetic map, highly saturated genetic maps were constructed containing 887 single-nucleotide polymorphism (SNP) markers derived via diversity arrays technology (DArT)seq. The Lgt gene was mapped to chromosome 5DS. Taking into account coordinates of the SNP markers, flanking Lgt, on the pseudomolecule 5D, a chromosomal region that contains this gene was determined, and a list of candidate genes was identified. Morphological features of the LM phenotype suggest that Lgt participates in the control of leaf development, mainly, in leaf proximal-distal patterning, and its dominant mutation causes abnormal ligular region but does not affect reproductive development. CONCLUSIONS: Here we report characterization of a liguleless Ae. tauschii mutant, whose phenotype is under control of a dominant mutation of Lgt. The dominant mode of inheritance of the liguleless trait in a Triticeae species is reported for the first time. The position of the Lgt locus on chromosome 5DS allowed us to identify a list of candidate genes. This list does not contain Ae. tauschii orthologs of any well-characterized cereal genes whose mutations cause liguleless phenotypes. Thus, the characterized Lgt mutant represents a new model for further investigation of plant leaf patterning and differentiation.

Examining Patient Willingness to Pay for Magnetic Resonance Imaging Guided Prostate Biopsy: Implications in the Era of Health Savings Accounts.

INTRODUCTION: The proliferation of health savings accounts has empowered patients to participate in medical decisions through a direct financial incentive. Using conjoint analysis we examined how much extra patients with a health savings account would be willing to pay for magnetic resonance imaging-transrectal ultrasound fusion guided prostate biopsy over transrectal ultrasound guided prostate biopsy. METHODS: We enrolled men who were 55 to 70 years old from a general urology clinic. We performed a literature review, distributed surveys and conducted semi-structured interviews to develop and rank attributes commonly used to compare magnetic resonance-ultrasound to transrectal ultrasound guided prostate biopsy. Using conjoint surveys we asked participants to select their preferred choice between 2 hypothetical biopsy interventions with differing levels of the attributes and cost. Results of the conjoint surveys were analyzed using a multinomial probit model. We performed a sensitivity analysis to assess the stability of our results after adjusting for age, history of prostate cancer, race, education, marital status, income and Zip Code of residence. RESULTS: Patients were willing to pay $1,598 more for a biopsy intervention with increased sensitivity to detect all cancer from 43% to 51% and $2,034 more for a negative predictive value improvement from 70% to 90%. Patients were not willing to pay extra for an intervention with improved sensitivity to detect high risk cancer alone. These estimates did not change with our sensitivity analysis. CONCLUSIONS: Our findings suggest that patients are willing to pay approximately $1,500 to $2,000 from a health savings account for a biopsy intervention with a benefit profile similar to that of magnetic resonance-ultrasound guided prostate biopsy.

Genes WHEAT FRIZZY PANICLE and SHAM RAMIFICATION 2 independently regulate differentiation of floral meristems in wheat.

BACKGROUND: Inflorescences of wheat species, spikes, are characteristically unbranched and bear one sessile spikelet at a spike rachis node. Development of supernumerary spikelets (SSs) at rachis nodes or on the extended rachillas is abnormal. Various wheat morphotypes with altered spike morphology, associated with the development of SSs, present an important genetic resource for studies on genetic regulation of wheat inflorescence development. RESULTS: Here we characterized diploid and tetraploid wheat lines of various non-standard spike morphotypes, which allowed for identification of a new mutant allele of the WHEAT FRIZZY PANICLE (WFZP) gene that determines spike branching in diploid wheat Ttiticum monococcum L. Moreover, we found that the development of SSs and spike branching in wheat T. durum Desf. was a result of a wfzp-A/TtBH-A1 mutation that originated from spontaneous hybridization with T. turgidum convar. сompositum (L.f.) Filat. Detailed characterization of the false-true ramification phenotype controlled by the recessive sham ramification 2 (shr2) gene in tetraploid wheat T. turgidum L. allowed us to suggest putative functions of the SHR2 gene that may be involved in the regulation of spikelet meristem fate and in specification of floret meristems. The results of a gene interaction test suggested that genes WFZP and SHR2 function independently in different processes during spikelet development, whereas another spike ramification gene(s) interact(s) with SHR2 and share(s) common functions. CONCLUSIONS: SS mutants represent an important genetic tool for research on the development of the wheat spikelet and for identification of genes that control meristem activities. Further studies on different non-standard SS morphotypes and wheat lines with altered spike morphology will allow researchers to identify new genes that control meristem identity and determinacy, to elucidate the interaction between the genes, and to understand how these genes, acting in concert, regulate the development of the wheat spike.

Genetic differentiation and karyotype variation in Hedysarum chaiyrakanicum, an endemic species of Tuva Republic, Russia.

Overgrazing and mining affect vegetation, particularly in mountains. At times, it goes to such an extent that the plant species become vulnerable and slowly extinct from its habitat. Such endemic species need to be protected. One such endemic species Hedysarum chaiyrakanicum Kurbatsky, a vulnerable steppe vegetation of Tuva Republic, Russia was evaluated for its genetic diversity and taxonomic definition using molecular technique and chromosome number adjustment. The genetic differentiation among H. chaiyrakanicum, H. setigerum Turcz. and H. gmelinii Ledeb. genotypes was determined using five inter-simple sequence repeat (ISSR) markers and then examined with Nei's genetic distance coefficient (D) and Shannon's information index (H). A total of 134 reproducible bands were detected with polymorphism percentage of 98%. The genetic diversity of H. chaiyrakanicum was found to be 0.343 while the Shannon index H(sp) was determined as 8 06. The chromosome number 2n = 16 is newly observed within the H. chaiyrakanicum. The genetic relationship based on ISSR data supported the taxonomic distinction of H. chaiyrakanicum from H. setigerum and H. gmelinii. We recommend both in situ and ex situ conservation strategies, specially germplasm sampling, to save this endemic species.

FRIZZY PANICLE drives supernumerary spikelets in bread wheat.

Bread wheat (Triticum aestivum) inflorescences, or spikes, are characteristically unbranched and normally bear one spikelet per rachis node. Wheat mutants on which supernumerary spikelets (SSs) develop are particularly useful resources for work towards understanding the genetic mechanisms underlying wheat inflorescence architecture and, ultimately, yield components. Here, we report the characterization of genetically unrelated mutants leading to the identification of the wheat FRIZZY PANICLE (FZP) gene, encoding a member of the APETALA2/Ethylene Response Factor transcription factor family, which drives the SS trait in bread wheat. Structural and functional characterization of the three wheat FZP homoeologous genes (WFZP) revealed that coding mutations of WFZP-D cause the SS phenotype, with the most severe effect when WFZP-D lesions are combined with a frameshift mutation in WFZP-A. We provide WFZP-based resources that may be useful for genetic manipulations with the aim of improving bread wheat yield by increasing grain number.