The evolutionary history of wild, domesticated, and feral brassica oleracea (Brassicaceae)

Understanding the evolutionary history of crops, including identifying wild relatives, helps to provide insight for conservation and crop breeding efforts. Cultivated Brassica oleracea has intrigued researchers for centuries due to its wide diversity in forms, which include cabbage, broccoli, cauliflower, kale, kohlrabi, and Brussels sprouts. Yet, the evolutionary history of this species remains understudied. With such different vegetables produced from a single species, B. oleracea is a model organism for understanding the power of artificial selection. Persistent challenges in the study of B. oleracea include conflicting hypotheses regarding domestication and the identity of the closest living wild relative. Using newly generated RNA-seq data for a diversity panel of 224 accessions, which represents 14 different B. oleracea crop types and nine potential wild progenitor species, we integrate phylogenetic and population genetic techniques with ecological niche modeling, archaeological, and literary evidence to examine relationships among cultivars and wild relatives to clarify the origin of this horticulturally important species. Our analyses point to the Aegean endemic B. cretica as the closest living relative of cultivated B. oleracea, supporting an origin of cultivation in the Eastern Mediterranean region. Additionally, we identify several feral lineages, suggesting that cultivated plants of this species can revert to a wild-like state with relative ease. By expanding our understanding of the evolutionary history in B. oleracea, these results contribute to a growing body of knowledge on crop domestication that will facilitate continued breeding efforts including adaptation to changing environmental conditions

Comparação de métodos de seleção em populações simuladas de frangos de corte Comparison of selection methods in simulated populations of broilers

Populações de frangos de corte foram simuladas utilizando-se o programa GENESYS, com o objetivo de avaliar a seleção com base no método da melhor predição linear não-viesada (BLUP - best linear unbiased prediction), a seleção individual para três tamanhos efetivos de população e três sistemas de acasalamento dos reprodutores selecionados. Simulou-se um genoma constituído de uma característica quantitativa, com valor de herdabilidade igual a 0,30, em seleção praticada durante 15 gerações consecutivas, com 30 repetições por geração. Para um mesmo tamanho efetivo e sistema de acasalamento, o BLUP foi sempre superior à seleção individual nas 15 gerações de seleção avaliadas.<br>Populations of broilers were simulated by using the program Genesys, in order to evaluate the selection based on BLUP (best linear unbiased prediction), and the individual selection for three effective population sizes, and three mating systems of the selected reproducers. The simulated genome was constituted by a quantitative trait, which had heritability of 0.30, in a selection made during 15 consecutive generations, and 30 cycles for generation. BLUP was always superior to the individual selection during all generations evaluated with the same effective size and mating system

Use of trade-off theory to advance understanding of herbivore-parasite interactions

1. Trade-off theory has been extensively used to further our understanding of animal behaviour. In mammalian herbivores, it has been used to advance our understanding of their reproductive, parental care and foraging strategies. Here, we detail how trade-off theory can be applied to herbivore-parasite interactions, especially in foraging environments. 2. Foraging is a common mode of uptake of parasites that represent the most pervasive challenge to mammalian fitness and survival. Hosts are hypothesized to alter their foraging behaviour in the presence of parasites in three ways: (i) hosts avoid foraging in areas that are contaminated with parasites; (ii) hosts select diets that increase their resistance and resilience to parasites; and (iii) hosts select for foods with direct anti-parasitic properties (self-medication). We concentrate on the mammalian herbivore literature to detail the recent advances made using trade-off frameworks to understand the mechanisms behind host-parasite interactions in relation to these three hypotheses. 3. In natural systems, animals often face complex foraging decisions including nutrient intake vs. predation risk, nutrient intake vs. sheltering and nutrient intake vs. parasite risk trade-offs. A trade-off framework is detailed that can be used to interpret mammal behaviour in complex environments, and may be used to advance the self-medication hypothesis. 4. The use of trade-off theory has advanced our understanding of the contact process between grazing mammalian hosts and their parasites transmitted via the faecal-oral route. Experimental manipulation of the costs and benefits of a nutrient intake vs. parasite risk trade-off has shown that environmental conditions (forage quality and quantity) and the physiological state (parasitic and immune status) of a mammalian host can both affect the behavioural decisions of foraging animals. 5. Naturally occurring trade-offs and the potential to manipulate their costs and benefits enables us to identify the abilities and behavioural rules used by mammals when making decisions in complex environments and thus predict animal behaviour

Biosynthesis of secondary metabolites in sugarcane

A set of genes related to secondary metabolism was extracted from the sugarcane expressed sequence tag (SUCEST) database and was used to investigate both the gene expression pattern of key enzymes regulating the main biosynthetic secondary metabolism pathways and the major classes of metabolites involved in the response of sugarcane to environmental and developmental cues. The SUCEST database was constructed with tissues in different physiological conditions which had been collected under varied situation of environmental stress. This database allows researchers to identify and characterize the expressed genes of a wide range of putative enzymes able to catalyze steps in the phenylpropanoid, isoprenoid and other pathways of the special metabolic mechanisms involved in the response of sugarcane to environmental changes. Our results show that sugarcane cDNAs encoded putative ultra-violet induced sesquiterpene cyclases (SC); chalcone synthase (CHS), the first enzyme in the pathway branch for flavonoid biosynthesis; isoflavone synthase (IFS), involved in plant defense and root nodulation; isoflavone reductase (IFR), a key enzyme in phenylpropanoid phytoalexin biosynthesis; and caffeic acid-O-methyltransferase, a key enzyme in the biosynthesis of lignin cell wall precursors. High levels of CHS transcripts from plantlets infected with Herbaspirillum rubri or Gluconacetobacter diazotroficans suggests that agents of biotic stress can elicit flavonoid biosynthesis in sugarcane. From this data we have predicted the profile of isoprenoid and phenylpropanoid metabolism in sugarcane and pointed the branches of secondary metabolism activated during tissue-specific stages of development and the adaptive response of sugarcane to agents of biotic and abiotic stress, although our assignment of enzyme function should be confirmed by careful biochemical and genetic supporting evidence.<br>Este trabalho foi realizado com os objetivos de gerar uma coleção de genes relacionados ao metabolismo secundário da cana de açúcar e investigar o padrão de expressão gênica de enzimas chaves reguladoras das principais vias biossintéticas ativas nos diferentes tipos de tecidos e situações de estresse físico-químico e biológico a que estão submetidas plantas cultivadas em casas de vegetação, campo ou in vitro. A estratégia de mineração dos dados da database de sequências expressas de cana de açúcar, SUCEST, usando ferramentas de bioinformática, focalizou classes de compostos como isoprenóides e fenilpropanóides que comprovadamente desempenham um papel na resposta de plantas a variações ambientais. Foram identificados e caracterizados genes que codificam enzimas chaves para a síntese de terpenóides, como a sesquiterpeno ciclase (SC); (CHS) para síntese de flavonóides; isoflavona sintase (IFS) envolvida na biossíntese de isoflavonóides que desempenharm importante papel na defesa de plantas e nodulação de raízes; isoflavona redutases (IFR) enzimas chaves para a síntese de fenilpropanóide fitoalexinas, bem como enzimas relacionadas à síntese de precursores de lignina, como a enzima ácido caféico- O- metiltransferase. O efeito do estresse causado por bactérias como Herbaspirillum rubri e Gluconacetobacter diazotroficans também foi avaliado tendo sido constatada a indução da expressão de chalcona sintase (CHS) em plântulas infectadas com esses agentes, sugerindo a ativação da via de flavonóides em resposta a este estresse biológico. Esses resultados apontam para o fato de que as vias do metabolismo de isopropanóides e de fenilpropanóides em cana de açúcar são ativadas de acordo com o estágio de desenvolvimento, especificidade de tecidos e em resposta a situações de estresse. Essas observações deverão ser confirmadas por meio de experimentação genética e bioquímica