Neural Correlates of the Perception for Novel Objects

Perception of novel objects is of enormous importance in our lives. People have to perceive or understand novel objects when seeing an original painting, admiring an unconventional construction, and using an inventive device. However, very little is known about neural mechanisms underlying the perception for novel objects. Perception of novel objects relies on the integration of unusual features of novel objects in order to identify what such objects are. In the present study, functional Magnetic Resonance Imaging (MRI) was employed to investigate neural correlates of perception of novel objects. The neuroimaging data on participants engaged in novel object viewing versus ordinary object viewing revealed that perception of novel objects involves significant activation in the left precuneus (Brodmann area 7) and the right visual cortex. The results suggest that the left precuneus is associated with the integration of unusual features of novel objects, while the right visual cortex is sensitive to the detection of such features. Our findings highlight the left precuneus as a crucial component of the neural circuitry underlying perception of novel objects.     

Metagenomics: Future of microbial gene mining

Modern biotechnology has a steadily increasing demand for novel genes for application in various industrial processes and development of genetically modified organisms. Identification, isolation and cloning for novel genes at a reasonable pace is the main driving force behind the development of unprecedented experimental approaches. Metagenomics is one such novel approach for engendering novel genes. Metagenomics of complex microbial communities (both cultivable and uncultivable) is a rich source of novel genes for biotechnological purposes. The contributions made by metagenomics to the already existing repository of prokaryotic genes is quite impressive but nevertheless, this technique is still in its infancy. In the present review we have drawn comparison between routine cloning techniques and metagenomic approach for harvesting novel microbial genes and described various methods to reach down to the specific genes in the metagenome. Accomplishments made thus far, limitations and future prospects of this resourceful technique are discussed.     

Experimental demography and the vital rates of generalist and specialist insect herbivores on native and novel host plants

1. Colonization success of species when confronted with novel environments is of interest in ecological, evolutionary and conservation contexts. Such events may represent the first step for ecological diversification. They also play an important role in adaptive divergence and speciation. 2. A species that is able to do well across a range of environments has a higher plasticity than one whose success is restricted to a single or few environments. The breadth of environments in which a species can succeed is ultimately determined by the full pattern of its vital rates in each environment. 3. Examples of organisms colonizing novel environments are insect herbivores expanding their diets to novel host plants. One expectation for insect herbivores is that species with specialized diets may display less plasticity when faced with novel hosts than generalist species. 4. We examine this hypothesis for two generalist and two specialist neotropical beetles (genus Cephaloleia: Chrysomelidae) currently expanding their diets from native to novel plants of the order Zingiberales. Using an experimental approach, we estimated changes in vital rates, life-history traits and lifetime fitness for each beetle species when feeding on native or novel host plants. 5. We did not find evidence supporting more plasticity for generalists than for specialists. Instead, we found similar patterns of survival and fecundity for all herbivores. Larvae survived worse on novel hosts; adults survived at least as well or better, but reproduced less on the novel host than on natives. 6. Some of the novel host plants represent challenging environments where population growth was negative. However, in four novel plant-herbivore interactions, instantaneous population growth rates were positive. 7. Positive instantaneous population growth rates during initial colonization of novel host plants suggest that both generalist and specialist Cephaloleia beetles may be pre-adapted to feed on some novel hosts. This plasticity in host use is a key factor for successful colonization of novel hosts. Future success or failure in the colonization of these novel hosts will depend on the demographic rates described in this research, natural selection and the evolutionary responses of life-history traits in novel environments.     

Functional differences in the backward shifts of CA1 and CA3 place fields in novel and familiar environments

Insight into the processing dynamics and other neurophysiological properties of different hippocampal subfields is critically important for understanding hippocampal function. In this study, we compared shifts in the center of mass (COM) of CA3 and CA1 place fields in a familiar and completely novel environment. Place fields in CA1 and CA3 were simultaneously recorded as rats ran along a closed loop track in a familiar room followed by a session in a completely novel room. This process was repeated each day over a 4-day period. CA3 place fields shifted backward (opposite to the direction of motion of the rat) only in novel environments. This backward shift gradually diminished across days, as the novel environment became more familiar with repeated exposures. Conversely, CA1 place fields shifted backward across all days in both familiar and novel environments. Prior studies demonstrated that CA1 place fields on average do not exhibit a backward shift during the first exposure to an environment in which the familiar cues are rearranged into a novel configuration, although CA3 place fields showed a strong backward shift. Under the completely novel conditions of the present study, no dissociation was observed between CA3 and CA1 during the first novel session (although a strong dissociation was observed in the familiar sessions and the later novel sessions). In summary, this is the first study to use simultaneous recordings in CA1 and CA3 to compare place field COM shift and other associated properties in truly novel and familiar environments. This study further demonstrates functional differentiation between CA1 and CA3 as the plasticity of CA1 place fields is affected differently by exposure to a completely novel environment in comparison to an altered, familiar environment, whereas the plasticity of CA3 place fields is affected similarly during both types of environmental novelty.     

Phenotypic accommodation: adaptive innovation due to developmental plasticity

Phenotypic accommodation is adaptive adjustment, without genetic change, of variable aspects of the phenotype following a novel input during development. Phenotypic accommodation can facilitate the evolution of novel morphology by alleviating the negative effects of change, and by giving a head start to adaptive evolution in a new direction. Whether induced by a mutation or a novel environmental factor, innovative morphological form comes from ancestral developmental responses, not from the novel inducing factor itself. Phenotypic accommodation is the result of adaptive developmental responses, so the novel morphologies that result are not "random" variants, but to some degree reflect past functionality. Phenotypic accommodation is the first step in a process of Darwinian adaptive evolution, or evolution by natural selection, where fitness differences among genetically variable developmental variants cause phenotype-frequency change due to gene-frequency change.     

Fluid consumption in lithium-treated rats: Roles of stimulus novelty and context novelty

In 5 experiments thirsty rats received an injection of lithium chloride or of saline, and their consumption of fluid was monitored at 5-min intervals for 30min. The novelty of the fluid and the novelty of the test context was varied. In Experiment 1 a novel fluid (a sucrose solution) was offered in a novel context; in Experiment 2 the fluid was novel and the context was familiar (the home cage); in Experiment 3 the fluid was familiar and the context was novel; and in Experiment 4 both fluid and context were familiar. Lithium influenced fluid consumption in those designs that included at least one novel feature (Experiments 1, 2, and 3, but not in Experiment 4). Consumption was initially enhanced (with respect to the controls) when the context was novel, but was suppressed when the fluid was novel. In Experiment 5, the flavor was over-ingested after lithium treatment when it was presented in a short (5min) test conducted in a novel place, but was rejected in a subsequent consumption in the home cages. It is argued that the effect of lithium depends on two factors: enhanced attention to salient cues that modifies the exploratory responses evoked by a novel context; rapid conditioning of an aversion when the fluid consumed is novel. Implications for the use of fluid consumption as an index of lithium-induced nausea are considered.     

Mouse novel Ly9: a new member of the expanding CD150 (SLAM) family of leukocyte cell-surface receptors

Human CS1, also known as novel Ly9, 19A24, or CRACC, is a member of the immunoglobulin gene superfamily (IgSF) expressed on natural killer cells and other leukocytes. Here we describe the cloning of the mouse homologue of this gene. The mouse novel Ly9 gene is shown to encode a transmembrane protein composed of two extracellular immunoglobulin-like domains, a transmembrane region and an 88-amino acid cytoplasmic domain. Mouse novel Ly9 is structurally similar to the extracellular domains of CD84 and CD229 (Ly9). Both mouse and human novel Ly9 genes mapped close to the CD229gene in a region where other members of the CD150 family have also been mapped, and analysis of their genomic sequences showed that they have an identical intron/exon organization. Northern blot analysis revealed that the expression of mouse and human novel Ly9 was predominantly restricted to hematopoietic tissues, with the exception of testis. Here we show that SAP (SH2D1A), an adapter protein responsible for the X-linked lymphoproliferative disease, binds to the phosphorylated cytoplasmic tail of human but not mouse novel Ly9. Taken together, these data indicate that mouse novel Ly9 is a new member of the expanding CD150 family of cell surface receptors.     

Can the dietary conservatism of predators compensate for positive frequency dependent selection against rare,conspicuous prey?

The evolution of conspicuous colouration in prey is puzzling because such coloration attracts the attention of predators. Anti-apostatic selection, in which rare prey forms are predated disproportionately often, is a second potential obstacle to the evolution of conspicuous colouration in prey, as bright novel prey forms are likely to be very rare when they first appear in populations. It has recently been postulated that dietary conservatism in predators, an extended feeding avoidance of novel prey, would allow novel conspicuous prey to survive and multiply despite anti-apostatic and conspicuousness effects. We tested this hypothesis for a novel prey type arising in an otherwise cryptic population, providing a direct test of whether anti-apostatic selection or the predators’ wariness to attack the novel prey type is the more important force acting on the novel conspicuous prey. We conducted our experiment in the “Novel World”; an experimental system designed to test predators’ foraging decisions in a large landscape. We found that the conspicuous, novel prey suffered high initial costs of conspicuousness compared with cryptic prey, since most of these prey were attacked during the first “generation”, with no opportunity to “reproduce”. However, a subset of the 17 birds (24%) were following a dietary conservative foraging strategy and they were reluctant to eat the novel prey. Interestingly these birds were not more neophobic or less explorative. Our data demonstrate how difficult it is for the novel conspicuous prey to survive in cryptic populations, but they also highlight the importance of the predator’s foraging strategies in helping to promote the evolution and maintenance of aposematism.     

Rhesus macaques (Macaca mulatta) are not neophobic toward novel food with a high sugar content

While we know that food neophobia in nonhuman primates is affected by social factors, little is known about how palatability, and specifically sugar content, might ameliorate a monkey's hesitancy to eat a novel food. It is likely that an innate preference for sweet substances would alter an animal's typical neophobic response. To test this, I presented nine male rhesus macaques with novel foods that contained a low, high, or no amount of sugar. As expected, the monkeys exhibited a neophobic response to the no-sugar novel foods but not to the high-sugar novel foods. Previous research on food neophobia may need to be reevaluated in light of the effects of sugar content on the neophobic response.     

No Coolidge Effect in Decorated Crickets

Female decorated crickets, Gryllodes sigillatus , obtain genetic benefits by mating with different males and, when given a choice, prefer novel males over previous mates. It is unknown, however, whether males exhibit a similar preference for novel females. Although female crickets control copulation, there are at least two ways in which males can exercise choice: (1) the amount of courtship directed towards prospective mates and (2) the size of the spermatophore transferred to the female at mating. To determine whether males devote more courtship effort to novel females while controlling for female behavioral cues, male courtship effort toward two dead females, one, a previous mate and the other, a novel female, was measured. To determine whether males manufacture larger spermatophores when paired with novel females, males were mated to novel or previous mates, and the different components of the spermatophore weighed. Males did not spend more time courting dead novel females than previous mates. There was no difference in the latency to remating of males confined with novel females and those paired with previous mates, and there was no difference in the mass of spermatophores transferred to novel and familiar females. Contrary to previous studies in other taxa, this study suggests that male crickets do not prefer novel mates and thus, are not subject to the Coolidge effect. Although mating with novel females may be beneficial to males, selection on males to identify and discriminate against previous mates may be relaxed because of a strong female preference for novel males.     

Distinguishing serial homologs from novel traits: Experimental limitations and ideas for improvements

One of the central but yet unresolved problems in evolutionary biology concerns the origin of novel complex traits. One hypothesis is that complex traits derive from pre‐existing gene regulatory networks (GRNs) reused and modified to specify a novel trait somewhere else in the body. This simple explanation encounters problems when the novel trait that emerges in a body is in a region that is known to harbor a latent or repressed trait that has been silent for millions of years. Is the novel trait merely a re‐emerged de‐repressed trait or a truly novel trait that emerged via a novel deployment of an old GRN? A couple of new studies sided on opposite sides of this question when investigating the origin of horns in dung beetles and helmets in treehoppers that develop in the first thoracic segment (T1) of their bodies, a segment known to harbor a pair of repressed/modified wings in close relatives. Here, I point to some key limitations of the experimental approaches used and highlight additional experiments that could be done in future to resolve the developmental origin of these and other traits.     

Use of novel pollen species by specialist and generalist solitary bees (Hymenoptera: Megachilidae)

If trade-offs between flexibility to use a range of host species and efficiency on a limited set underlie the evolution of diet breadth, one resulting prediction is that specialists ought to be more restricted than generalists in their ability to use novel resource species. I used foraging tests and feeding trials to compare the ability of a generalist and a specialist solitary mason bee species to collect and develop on two pollen species that are not normally used in natural populations (novel pollens). Osmia lignaria (Hymenoptera: Megachilidae) is a generalist pollen feeder; O. californica, is more specialized. Adults of the specialist were more limited in use of novel hosts, but only in some contexts. Both bee species refused to collect one novel pollen. The specialist accepted a second novel pollen only when it was presented along with its normal pollen, whereas the generalist collected novel pollen whether presented alone or with normal pollen. Surprisingly, larvae of the specialist were more flexible than were generalists. The specialist grew well on mixtures of normal and novel pollen species, in some cases better than on its normal host alone. Larvae of the generalist grew more poorly on all diets containing novel pollens than on their normal host. Data on these two species of bees suggest that specialization by itself need not reduce flexibility on novel hosts. The findings also provide information about mechanisms of specialization in bees. Similar to some folivores, specific cues of the pollen host and the bee's interpretation of these contribute, along with foraging economics, to pollen choice by adults. The ability of the larvae to cope with specific components of one pollen species need not interfere with its ability to use others.     

Habituation of unconditioned fear can be attenuated by the presence of a safe stimulus: assessment using the neophobic response of the rat

Protection from extinction of conditioned fear has been demonstrated when a conditioned inhibitor of fear is presented during extinction treatment. The present study assessed if similar results could be obtained during the analogous habituation of unconditioned fear. The neophobic response typically elicited by the presentation of a novel flavor was used as a model of unconditioned fear. Consumption by rats was used to ascertain the impact of nonreinforced exposure to a novel flavor either alone, in compound with another novel flavor, or in compound with a safe flavor (i.e., a flavor previously trained as a conditioned inhibitor for illness). The presentation of the novel flavor alone in the absence of illness reduced neophobia. However, exposure to the novel flavor in compound with the safe flavor reduced habituation of neophobia. This effect was not observed when the novel flavor was exposed in compound with another novel flavor. These results suggest that removing safe stimuli from the therapeutical environment might improve the effectiveness of exposure therapy in the treatment of unconditioned fear.     

Is exploration a metric for information gathering? Attraction to novelty and plasticity in black-capped chickadees

Animals can learn about the value of resources and predation risk by exploring novel environments or exploring novel stimuli in their regular environments. Still, there is a disconnect in the way that exploration has been defined and measured; exploration is defined in terms of information acquisition, while measured in terms of movement speed and diversity of contacted items in a novel environment. If exploration is indeed a measurement of information gathering, fast explorers should seek to reduce uncertainty about their environment more than slow explorers. Exploration speed has also been linked to behavioral plasticity, where fast explorers move fast but collect less detailed information, thereby forming routines and expressing less plasticity than slow explorers. We test these two hypotheses by comparing exploration in a novel environment to individuals' attraction to novelty and behavioral plasticity. Our results support the view that exploration is a measurement of information-gathering tendencies as fast explorers were more likely to collect novel information, which should reduce uncertainty further than sampling familiar information sources, compared with slower explorers. Furthermore, faster explorers switched to sampling novel information more quickly than slow explorers when the value of the familiar option decreased, opposing the widely held view that faster explorers present more routine-like behavior. By providing familiar and novel foraging options in close spatial contiguity, we demonstrate an attraction to novelty in faster explorers that cannot be confounded by activity rate, thereby suggesting that these individuals seek to reduce uncertainty. In conclusion, our results support the biological validity of the term “exploration” through its association with information gathering.     

Similarity of Cortical Activity Patterns Predicts generalization Behavior

Humans and animals readily generalize previously learned knowledge to new situations. Determining similarity is critical for assigning category membership to a novel stimulus. We tested the hypothesis that category membership is initially encoded by the similarity of the activity pattern evoked by a novel stimulus to the patterns from known categories. We provide behavioral and neurophysiological evidence that activity patterns in primary auditory cortex contain sufficient information to explain behavioral categorization of novel speech sounds by rats. Our results suggest that category membership might be encoded by the similarity of the activity pattern evoked by a novel speech sound to the patterns evoked by known sounds. Categorization based on featureless pattern matching may represent a general neural mechanism for ensuring accurate generalization across sensory and cognitive systems.     

Two alternative exons can result from activation of the cryptic splice acceptor site deep within intron 2 of the dystrophin gene in a patient with as yet asymptomatic dystrophinopathy

Intron 2 of the dystrophin gene is unusually large, extending 157 kb on the X-chromosome, and is known to contain one cryptic exon 2a. Here, we report that a single nucleotide change in the middle of this huge intron is a source of two novel extra exons. A novel point mutation changing T to A nucleotide was identified at 5591 bp downstream from the 3' end of exon 2 (T310+5591A) in genomic DNA of an asymptomatic dystrophinopathy case. The mutation identification was initiated by detection of two novel dystrophin mRNAs containing a 132-nucleotide or 46-nucleotide insertion between exons 2 and 3 in lymphocytes but one with a 132-nucleotide insertion in skeletal muscle. It was concluded that T310+5591A created a novel consensus sequence for a splice acceptor site leading to the formation of two novel exon structures by using two cryptic splice donor sites at 132 bp or 46 bp downstream. The former maintained the dystrophin reading frame and was expected to insert 44 amino acids in the N-terminal domain of dystrophin, whereas the latter created a premature stop codon. An immunohistochemical study of the skeletal muscle of the patient disclosed that the N-terminal domain of dystrophin was not stained, but the rod- and C-terminal domains were stained in a patchy and discontinuous manner, indicating that the in-frame mRNA was functional. Creation of a splice acceptor site by a single nucleotide change leading to extra exon structures is a novel molecular mechanism in human disease.     

Canalization and adaptation in a landscape of sources and sinks

Landscapes are often spatially heterogeneous, and many species frequently confront novel environments to which they are not adapted. Whether a species becomes adapted to a novel environment, and thus undergoes niche evolution, may depend not only on the genetic architecture of the traits under selection, but also on the structure of the ecological landscape. Different models of gene architecture are used to show that complex genetic architectures tends to produce genetic canalization that slows adaptation to novel environments compared to simpler additive polygenic architectures, but that the topology of the landscape interacts with genetic architecture to influence the probability of adaptation. This interaction can lead to unexpected results, such as a greater probability of adaptation to a novel environment for a population of more highly canalized individuals than a population of less canalized individuals. The interplay between landscape structure and genetic architecture may influence the balance of evolutionary forces acting on a population, and thus whether a species is likely to adapt to the novel environments it confronts.     

Effects of experience and object complexity on exploration in garden warblers (Sylvia borin)

Animals are increasingly exposed to novel environmental conditions because of human activities. An organism's ability to cope with these challenges is critical to its survival. The decision of whether or not an animal should investigate environmental changes involves a trade-off between the risk and the potential benefit of a novel resource. Novelty often elicits approach (exploratory) as well as avoidance behaviour in animals, and the extent of each of these behaviours may influence learning about the environment. We formulated and tested several hypotheses to determine how external factors (complexity of a novel stimulus) and internal factors (experience with objects) might influence exploration latencies to touch a novel object based on either cost or benefit considerations. Garden warblers were confronted with a simple and a complex novel object in their familiar cages, and latencies until first touch were measured. Additionally, corticosterone levels before and after the experiment were measured to assess whether differences in baseline levels might explain variations in latency to approach and whether presentation of novel objects is stressful. The complex object was touched significantly later than the simple object. Experienced birds investigated both types of objects later than inexperienced birds. Although birds showed marked approach–avoidance behaviour with the complex object, none of the objects elicited a corticosterone stress response. The results indicate that garden warblers consider both costs and benefits when exploring novel objects, and that the relative influence of costs and benefits varies with external and internal factors.