Pair Partner Research Articles

Theoretical investigation of the effects of diverse hydrogen-bonding characteristics on the 17O chemical shielding and electric field gradient tensors within the active sites of MraYAA bound to nucleoside antibiotics capuramycin, carbacaprazamycin, 3′-Hydroxymureidomycin A, and muraymycin D2

This study builds upon our prior researches and seeks to investigate and clarify the influences of various characteristics of hydrogen bonds (H-bonds) and charge transfer (CT) interactions, which were detected within the inhibitor binding pockets (labeled as the QM models I–IV) of MraYAA–capuramycin, MraYAA–carbacaprazamycin, MraYAA–3′-hydroxymureidomycin A, and MraYAA–muraymycin D2 complexes by QTAIM and NBO analyses from DFT QM/MM MD calculations, on the 17O chemical shielding (CS) and electric field gradient (EFG) tensors of carboxylate (Oδ), carbonyl (C═O), and hydroxyl (O–H) oxygens in these models. The 17O CS and EFG tensors of these three types of oxygens in QM models I–IV were calculated at the M06-2X/6-31G** level by including the solvent effects using the polarizable continuum model. From the computed 17O CS and EFG tensors in these models, it was found that the nuclear shielding, σiso, for carboxylate or carbonyl oxygen increases (shielding effect) as the H-bond length decreases and the percentage p-character of nOδ/nC═O lone pair partner in the CT interaction enhances. In contrast, the σiso (17O–H) decreases (deshielding effect) with a reduction in the H-bond length as well as with an enhancement in percentage s-character of the nOH lone pair/σ*O–H antibond. By reducing the H-bond length or by increasing p-character of the nOδ/nC═O lone pair, the 17Oδ/17O═C quadrupole coupling constant smoothly decreases, while the 17Oδ/17O═C asymmetry parameter smoothly increases. Moreover, these calculated parameters are in a good agreement with the experimental values. The information garnered here is valuable particularly for further understanding of empirical correlations between 17O NMR spectroscopic and H-bonding characteristics in the protein–ligand complexes.

Evidence for female dominance in the Milne-Edwards' sportive lemur (Lepilemur edwardsi).

Female dominance over males is more frequent in Malagasy lemurs than in other primate clades, but patterns of female-male dominance vary among species, and few data are available for one particularly species-rich genus, Lepilemur. We investigated the types, temporal distribution, and outcome of female-male agonistic conflicts in the Milne-Edwards' sportive lemur (Lepilemur edwardsi). Ten L. edwardsi belonging to five social units were equipped with radio collars and observed during 79 focal follows between May and November 1998. We quantified agonistic conflicts, monthly conflict rates, and documented the winner and context for all conflicts. Female-male agonistic conflicts (N = 162) occurred at a mean rate of 0.21 conflicts/hour within groups. Agonistic conflicts peaked during the birth season and occurred mostly in unknown or infant proximity contexts. Females won 96% of all decided agonistic conflicts (N = 154). Other outcomes occurred only when females were with infants during the birth season. In that context, one female sometimes withdrew from her pair partner, and another female withdrew or fled from an extra-group male whose attacks eventually led to infanticide. Our results suggest female dominance in pair-living L. edwardsi. We hypothesize that elevated female aggression may convey fitness benefits to female Lepilemur because it generally allows females to intervene quickly and efficiently on behalf of their infants against nonfather males who may approach the newborn infants when they are parked in vegetation.

P27: Pilot study of telephone peer support for inclusion of people living with cognitive decline in urban areas

Objective:During the spread of infectious diseases, social isolation increases among the elderly with cognitive impairment. The telephone may be a traditional but realistic and reliable tool to prevent social isolation. We report here a pilot study to examine the effects of regular telephone communication on elderly people with cognitive decline living in urban areas.Methods:Seventeen elderly people (including four males) who attended a session for recruiting participants for a class using the board game “Go” in Tokyo were paired and talked on the phone once a week about Go issues and other interests during the 3-month class period, starting January 2022. At the end of the class in April 2022, a self-administered questionnaire (5 items, 4-point scale) and semi-structured interview were conducted. The Ethics Committee of the Tokyo Metropolitan Institute of Gerontology approved the study, and the participants’ written consent was obtained.Results:The participants’ mean age was 80.1 ± 5.5 years, and the mean score of the Montreal Cognitive Assessment, which screens for mild cognitive impairment, was 21.3 ± 3.1, with 16 subjects (94.1%) scoring below the cut-off value of 25. The percentages of “agree” or “somewhat agree” responses indicated that the telephone interaction was “enjoyable” (94.1%), “had a positive effect” (88.2%), and they “would like to talk on the phone sometimes in the future” (76.5%). In the interviews, the positive responses were “(Because I was looking forward to the phone call so eagerly) I couldn't wait for the phone call,” “I enjoyed playing Go,” “It was easy to talk about Go because it was a common topic,” “We talked about things other than Go,” and “I want to go out with my pair partner,” while others were “I was careful about what talk about” and “It was difficult to maintain psychological distance from my pair partner.”Conclusion:The results suggest that telephone communication may be effective for preventing social isolation among the elderly with cognitive impairment. We believe that promoting telephone interaction during normal times between residents in the community with common interests will build supportive relationships and lead to a Dementia-friendly society.

Substitutional Sodium Doping on Tungsten Ditelluride: A First-principles Study

Methylation at O6 atom of guanine is a type of DNA damage which can cause a cancer. This damage at O6 atom of guanine in a DNA can be transferred to SG atom of cysteine in O6-alkylguanine-DNA alkyltransferase (AGT). Flipping out of methylated guanine from its base stack is essential to give off the methyl adduct (CH3) to AGT. AGT receives the methyl adduct at cysteine leaving guanine demethylated, but still in flipped out orientation. The repair mechanism of DNA would be completed only when the extrahelically flipped guanine returns back into the base stack, which is considered as the final step of the DNA repair mechanism. Here, the intrahelical flipping mechanism of repaired guanine has been studied. The work is further extended to examine the stability of hydrogen bonds between guanine and its pair partner cytosine. The overall result shows that intrahelical rotation of repaired guanine is possible and the base pairing is stable as the ordinary hydrogen bonding. BIBECHANA 19(2022)184-194

Flipping Back of Extrahelical Guanine after Methyl Repair

Methylation at O6 atom of guanine is a type of DNA damage which can cause a cancer. This damage at O6 atom of guanine in a DNA can be transferred to SG atom of cysteine in O6-alkylguanine-DNA alkyltransferase (AGT). Flipping out of methylated guanine from its base stack is essential to give off the methyl adduct (CH3) to AGT. AGT receives the methyl adduct at cysteine leaving guanine demethylated, but still in flipped out orientation. The repair mechanism of DNA would be completed only when the extrahelically flipped guanine returns back into the base stack, which is considered as the final step of the DNA repair mechanism. Here, the intrahelical flipping mechanism of repaired guanine has been studied. The work is further extended to examine the stability of hydrogen bonds between guanine and its pair partner cytosine. The overall result shows that intrahelical rotation of repaired guanine is possible and the base pairing is stable as the ordinary hydrogen bonding. BIBECHANA 19 (2022) 201-207

The role of personality traits in pair bond formation: pairing is influenced by the trait of exploration.

In species with long-term pair bonds, such as zebra finches, evaluating the quality of potential mates is critically important. Courtship is an opportunity to evaluate information from dynamic behavioural cues. Personality traits, as stable individual differences in behaviour, could predict the quality of a potential mate. How might personality traits influence mate choice? We examined the influence of several personality traits, including exploration, aggression, and social preference, on pair formation in zebra finches. We provided birds with a variety of potential mates and allowed them to select a pair partner. Our semi-naturalistic mate choice paradigm allowed birds to observe social information over an extended period, simulating the challenges of social evaluation that birds encounter in the wild. We found that pairing is influenced by personality, with birds selecting mates similar to them in exploration. The partner's exploration score relative to their own was more important than the absolute exploration score.

The interpretation and prediction of event participants in Mandarin verb-final active and passive sentences

The role of the markers bei and bǎ for thematic role assignment in Chinese NP1-marker-NP2-V sentences was investigated in adult native speakers. While word order is identical, thematic roles are distributed reversely in these structures [patient-bei-agent, (passive); agent-bǎ-patient, (active)]. If Mandarin speakers interpret NP1 as the agent of an event, viewing behavior was expected to differ between conditions for NP1-objects, indicating the revision of initial role assignment in the case of bei. Given reliability differences between markers for role assignment, differences in anticipatory eye movements to NP2-objects were expected. 16 visual stimuli were combined with 16 sets of sentence pairs; one pair partner featuring a bei-, the other a bǎ-structure. Growth curve analysis of 28 participants’ eye movements revealed no attention differences for NP1-objects. However, anticipatory eye movements to NP2-objects differed. This suggests that a stable event representation is constructed only after NP1 and the marker have been processed, but before NP2. As a control variable, syntactic/semantic complexity of NP1 was manipulated. The differences obtained indicate that the visual world paradigm is in principle sensitive to detect language-induced processing costs, which was taken to validate the null-finding for NP1. Interestingly, NP1 complexity also modulated predictive processing. Findings are discussed with respect to a differentiation between interpretative and predictive aspects incremental processing.

The Base Pairing Partner Modulates Alkylguanine Alkyltransferase.

O6-Alkylguanine DNA adducts are repaired by the suicide enzyme alkylguanine alkyltransferase (AGT). AGT facilitates repair by binding DNA in the minor groove, flipping out the damaged base, and transferring the O6-alkyl group to a cysteine residue in the enzyme's active site. Despite there being significant knowledge concerning the mechanism of AGT repair, there is limited insight regarding how altered interactions of the adduct with its complementary base in the DNA duplex influence its recognition and repair. In this study, the relationship of base pairing interactions and repair by human AGT (hAGT) was tested in the frequently mutated codon 12 of the KRAS gene with complementary sequences containing each canonical DNA base. The rate of O6-MeG repair decreased 2-fold when O6-MeG was paired with G, whereas all other canonical bases had no impact on the repair rate. We used a combination of biochemical studies, molecular modeling, and artificial nucleobases to elucidate the mechanism accounting for the 2-fold decrease. Our results suggest that the reduced rate of repair is due to O6-MeG adopting a syn conformation about the glycosidic bond precluding the formation of a repair-active complex. These data provide a novel chemical basis for how direct reversion repair may be impeded through modification of the base pair partner and support the use of artificial nucleobases as tools to probe the biochemistry of damage repair processes.

Crystal structure and tartrate inhibition of Legionella pneumophila histidine acid phosphatase

Histidine acid phosphatases (HAPs) utilize a nucleophilic histidine residue to catalyze the transfer of a phosphoryl group from phosphomonoesters to water. HAPs function as protein phosphatases and pain suppressors in mammals, are essential for Giardia lamblia excystation, and contribute to virulence of the category A pathogen Francisella tularensis. Herein we report the first crystal structure and steady-state kinetics measurements of the HAP from Legionella pneumophila (LpHAP), also known as Legionella major acid phosphatase. The structure of LpHAP complexed with the inhibitor l(+)-tartrate was determined at 2.0 Å resolution. Kinetics assays show that l(+)-tartrate is a 50-fold more potent inhibitor of LpHAP than of other HAPs. Electrostatic potential calculations provide insight into the basis for the enhanced tartrate potency: the tartrate pocket of LpHAP is more positive than other HAPs because of the absence of an ion pair partner for the second Arg of the conserved RHGXRXP HAP signature sequence. The structure also reveals that LpHAP has an atypically expansive active site entrance and lacks the nucleotide substrate base clamp found in other HAPs. These features imply that nucleoside monophosphates may not be preferred substrates. Kinetics measurements confirm that AMP is a relatively inefficient in vitro substrate of LpHAP.

Guanine oxidation product 5-carboxamido-5-formamido-2-iminohydantoin induces mutations when bypassed by DNA polymerases and is a substrate for base excision repair.

Guanine (G) is a target for oxidation by reactive oxygen species in DNA, RNA, and the nucleotide pool. Damage to DNA yields products with alternative properties toward DNA processing enzymes compared to those of the parent nucleotide. A new lesion, 5-carboxamido-5-formamido-2-iminohydantoin (2Ih), bearing a stereocenter in the base was recently identified from the oxidation of G. DNA polymerase and base excision repair processing of this new lesion has now been evaluated. Single nucleotide insertion opposite (S)-2Ih and (R)-2Ih in the template strand catalyzed by the DNA polymerases Klenow fragment exo(-), DPO4, and Hemo KlenTaq demonstrates these lesions to cause point mutations. Specifically, they promote 3-fold more G·C → C·G transversion mutations than G·C → T·A, and (S)-2Ih was 2-fold more blocking for polymerase bypass than (R)-2Ih. Both diastereomer lesions were found to be substrates for the DNA glycosylases NEIL1 and Fpg, and poorly excised by endonuclease III (Nth). The activity was independent of the base pair partner. Thermal melting, CD spectroscopy, and density functional theory geometric optimization calculations were conducted to provide insight into these polymerase and DNA glycosylase studies. These results identify that formation of the 2Ih lesions in a cell would be mutagenic in the event that they were not properly repaired.

The R- and S-diastereoisomeric effects on the guanidinohydantoin-induced mutations in DNA.

Direct and indirect oxidation of guanine in DNA produces guanidinohydantoin (Gh), which is capable of inhibiting replication and inducing mutations during cellular activities. Although some biochemical studies have proposed that Gh may induce exclusively G to C mutations in DNA, other studies have predicted the occurrence of both G to C and G to T mutations. However, the exact reasons for these mutations and the dubious character of Gh in this context are not yet understood. Further, due to insufficient structural data, the electronic structure of Gh that can participate in the formation of different base pair complexes in DNA is also not known. Here, density functional theory (DFT) is used to find the most stable tautomers of Gh at the base level out of a total 112 possible tautomers and their involvement in mutagenesis is investigated by computing structures, energies and electronic properties of different base pair complexes formed between the syn- and anti-conformations of the most stable tautomer of Gh (aGh) and all the bases of DNA. It is found that aGh can coexist in R- and S-diastereoisomeric configurations. Due to the flexible guanidinium group, it can rotate about the N3-C4 bond in each of the above diastereoisomers to form two different stable conformations (aGh1 and aGh2). It is further shown that among the different base pair complexes involving aGh1, syn-aGh1:G is the most stable. This indicates that G would be easily incorporated against syn-aGh1 giving rise to G to C mutations in DNA. However, in the case of aGh2, G is the preferred base pair partner of syn-aGh2 and T is the preferred base pair partner of anti-aGh2. This implies that in addition to G to C mutations, the occurrence of aGh2 in DNA may also induce G to A mutations. Further, due to similarities between base pairing patterns and binding energies of syn-aGh1:A and syn-aGh2:A complexes with those of the T:A complex, DNA polymerases may mistakenly insert A opposite aGh1 or aGh2 by misrecognizing the latter as T. This may ultimately induce G to T mutations in DNA. However, as the constraints imposed by the DNA backbones and stacking interactions were not considered here, the possibilities of aGh2:T and aGh2:A base pairs need to be investigated experimentally. It is further found that the mutagenic character of aGh in the R- and S-diastereoisomeric forms is similar.

Is Cryptochrome a Primary Sensor of Extremely Low Frequency Magnetic Fields in Childhood Leukemia?

Extremely low frequency magnetic fields (ELF MF) are classified as possibly carcinogenic to humans, but the biophysical mechanisms of a causal relationship remain unclear. A cryptochrome-based radical pair mechanism (RPM) has been invoked as the primary MF sensor in animal magnetoreception to explain effects from MF strengths in the nT range. Model studies of the RPM in aprotic solution require cryogenic temperatures and MFs in the µT range to elicit marginal responses, implying that physiological responses evoked by radical pairs in biological milieu are unlikely. We explore ideas about how signals from transient radical pairs in cryptochrome might be transduced and amplified in mutagenic responses. The cryptochrome-based RPM involves blue light activation of the flavin adenine dinucleotide (FAD) cofactor followed by electron transfer (ET) from a conserved triad of tryptophan residues. However, intramolecular ET involving additional conserved aromatic residues in cryptochrome likely extends beyond the canonical triad. Further, ascorbate, which is present at millimolar concentrations in leukocytes, is likely to transfer an electron to the ultimate amino acid radical formed during one-electron reduction of FAD. The ascorbyl radical has been proposed as a potential radical pair partner in the RPM. The flavin semiquinone radical may be reoxidized to the resting state via ET to O2 to form O2•−. Increased levels of the ascorbyl radical and O2•− would contribute to oxidative stress pathways in the cell. Oxidative stress responses in cancer are thought to be mediated in part by the mitogen activated protein kinase (MAPK) signaling pathway. We have presented evidence for alteration of MAPK activation in response to ELF MF. Acknowledgement: This project has received funding from the European Union's Seventh Programme for research, technological development, and demonstration under grant agreement No. 282891.

Pair bond characteristics and maintenance in free-flying jackdaws Corvus monedula: effects of social context and season.

Most birds rely on cooperation between pair partners for breeding. In long-term monogamous species, pair bonds are considered the basic units of social organization, albeit these birds often form foraging, roosting or breeding groups in which they repeatedly interact with numerous conspecifics. Focusing on jackdaws Corvus monedula, we here investigated 1) the interplay between pair bond and group dynamics in several social contexts and 2) how pair partners differ in individual effort of pair bond maintenance. Based on long-term data on free-flying birds, we quantified social interactions between group members within three positive contexts (spatial proximity, feeding and sociopositive interactions) for different periods of the year (non-breeding, pre-breeding, parental care). On the group level, we found that the number of interaction partners was highest in the spatial proximity context while in the feeding and sociopositive contexts the number of interaction partners was low and moderately low, respectively. Interactions were reciprocated within almost all contexts and periods. Investigating subgrouping within the flock, results showed that interactions were preferentially directed towards the respective pair partner compared to unmated adults. When determining pair partner effort, both sexes similarly invested most into mutual proximity during late winter, thereby refreshing their bond before the onset of breeding. Paired males fed their mates over the entire year at similar rates while paired females hardly fed their mates at all but engaged in sociopositive behaviors instead. We conclude that jackdaws actively seek out positive social ties to flock members (close proximity, sociopositive behavior), at certain times of the year. Thus, the group functions as a dynamic social unit, nested within are highly cooperative pair bonds. Both sexes invested into the bond with different social behaviors and different levels of effort, yet these are likely male and female proximate mechanisms aimed at maintaining and perpetuating the pair bond.

Interpersonal Multisensory Stimulation reduces the overwhelming distracting power of self-gaze: psychophysical evidence for ‘engazement’

One's own face and gaze are never seen directly but only in a mirror. Yet, these stimuli capture attention more powerfully than others' face and gaze, suggesting the self is special for brain and behavior. Synchronous touches felt on one's own and seen on the face of others induce the sensation of including others in one's own face (enfacement). We demonstrate that enfacement may also reduce the overwhelming distracting power of self-gaze. This effect, hereafter called ‘engazement', depends on the perceived physical attractiveness and inner beauty of the pair partner. Thus, we highlight for the first time the close link between enfacement and engazement by showing that changes of the self-face representation induced by facial visuo-tactile stimulation extend to gaze following, a separate process likely underpinned by different neural substrates. Moreover, although gaze following is a largely automatic, engazement is penetrable to the influence of social variables, such as positive interpersonal perception.

Elucidating the Relation between Internal Motions and Dihedral Angles in an RNA Hairpin Using Molecular Dynamics.

Molecular dynamics simulations were performed to characterize the internal motions of the ribonucleic acid apical stem loop of human hepatitis B virus. The NMR relaxation rates calculated directly from the trajectory are in good agreement with the experiment. Calculated order parameters follow the experimental pattern. Order parameters lower than 0.8 are observed for nucleotides that are weakly hydrogen bonded to their base pair partner, unpaired, or part of the loop. These residues show slow decay of the internal correlation functions of their base and sugar C-H vectors. Concerted motions around backbone dihedral angles influence the amplitude of motion of the sugar and base C-H vectors. The order parameters for base C-H vectors are also affected by the fluctuation of the glycosidic dihedral angle.

Leaf Photosynthesis in Nitrogen-starved ‘Western’ Pecan Is Lower on Fruiting Shoots than Non-fruiting Shoots during Kernel Fill

Photosynthetic function in nut trees is closely related to nitrogen (N) nutrition because much of tree N is held within the leaf photosynthetic apparatus, but growing fruit and seeds also represent strong N sinks. When soil N availability is low, nut trees remobilize and translocate N from leaves to help satisfy N demand of developing fruit. Our objective was to describe shoot-level impacts of pecan [Carya illinoinensis (Wangenh.) K. Koch.] fruiting on leaf N and photosynthesis (Pn) during kernel fill under a range of tree N statuses. Our study was conducted in a mature ‘Western’ pecan orchard near Las Cruces, NM. In 2009, 15 trees showing a range of N deficiency symptom severity were grouped according to leaf SPAD into low, medium, and high N status categories. Differential N fertilizer rates were applied to the soil around high and medium N trees to accentuate differences in N status among the three categories. Light-saturated leaf Pn was measured on fruiting and non-fruiting shoots during kernel fill in 2009 and 2010. After measurement of Pn, the leaflet and its leaflet pair partner were collected, dried, and analyzed for tissue N. Leaf N concentration was significantly lower on fruiting shoots than non-fruiting shoots on all three sampling dates. The tree N status main effect was also significant, whereas the two-way interaction of shoot fruiting status and tree N status was not. Photosynthesis of leaves on fruiting shoots was significantly lower than that of non-fruiting shoots on all sampling dates. These data suggest that N demand by the growing kernel reduced N in leaves on the same shoot. Consequently, Pn of those leaves was reduced. The effect of tree N status and shoot fruiting status was best summarized with an additive model where there is a larger relative reduction in leaf N and Pn for fruiting shoots on trees with low N status.

Breeding Experience, Alternative Reproductive Strategies and Reproductive Success in a Captive Colony of Zebra Finches (Taeniopygia guttata)

Birds exhibit a remarkable diversity of different reproductive strategies both between and within species. Species such as the zebra finch (Taeniopygia guttata) may evolve the flexible use of alternative reproductive strategies, as well as benefit from prior breeding experience, which allows them to adaptively respond to unpredictable environments. In birds, the flexible use of alternative reproductive strategies, such as extra-pair mating, has been reported to be associated with fast reproduction, high mortality and environmental variability. However, little is known about the role of previous breeding experience in the adaptive use of alternative reproductive strategies. Here we performed an in-depth study of reproductive outcomes in a population of domesticated zebra finches, testing the impact of prior breeding experience on the use of alternative reproductive strategies and reproductive success. We provide evidence that older females with prior breeding experience are quicker to initiate a clutch with a new partner and have increased success in chick rearing, even in a captive colony of zebra finches with minimal foraging demands. We also find evidence that the breeding experience of other females in the same social group influences reproductive investment by female zebra finches. Furthermore, we demonstrate that the use of alternative reproductive strategies in female zebra finches is associated with previous failed breeding attempts with the same pair partner. The results provide evidence that age and breeding experience play important roles in the flexible use of both facultative and adaptive reproductive strategies in female zebra finches.

Low Fidelity Bypass of O2-(3-Pyridyl)-4-oxobutylthymine, the Most Persistent Bulky Adduct Produced by the Tobacco Specific Nitrosamine 4-(Methylnitrosamino)-1-(3-pyridyl)-1-butanone by Model DNA Polymerases

4-(Methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK) is one of the most important human carcinogens. It is metabolized to produce a variety of methyl and 4-(3-pyridyl)-4-oxo-butyl (POB) DNA adducts. A potentially important POB adduct is O(2)-[4-(3-pyridyl)-4-oxobut-1-yl]thymidine (O(2)-POB-dT) because it is the most abundant POB adduct in NNK-treated rodents. To evaluate the mutagenic properties of O(2)-POB-dT, we measured the rate of insertion of dNTPs opposite and extension past both O(2)-POB-dT and O(2)-methylthymidine (O(2)-Me-dT) by two model polymerases, E. coli DNA polymerase I (Klenow fragment) with the proofreading exonuclease activity inactivated (Kf) and Sulfolobus solfataricus DNA polymerase IV (Dpo4). We found that the size of the alkyl chain only marginally affected the reactivity and that the specificity of adduct bypass was very low. The k(cat)/K(m) for the Kf catalyzed incorporation opposite and extension past the adducts was reduced ∼10(6)-fold when compared to undamaged DNA. Dpo4 catalyzed the incorporation opposite and extension past the adducts approximately 10(3)-fold more slowly than undamaged DNA. The dNTP specificity was less for Dpo4 than for Kf. In general, dA was the preferred base pair partner for O(2)-Me-dT and dT the preferred base pair partner for O(2)-POB-dT. With enzyme in excess over DNA, the time courses of the reactions showed a biphasic kinetics that indicates the formation inactive binary and ternary complexes.

Extra-pair paternity in seabirds: a review and case study of Thin-billed Prions Pachyptila belcheri

Seabirds are long-lived birds that exhibit very high levels of parental investment, and male parental care is indispensable. Seabirds have comparable breeding and life history parameters, being colonial, long-lived, and exhibiting little or no sex dimorphism. It is thought that these characteristics explain why seabirds exhibit a uniformly low level of extra-pair paternity. However, among the relatively few seabirds that have been studied to date, some regularly engage in extra-pair copulations, and the reasons for such inter-specific variability remain unclear. We here analyse paternity in a small sub-Antarctic seabird, the Thin-billed Prions Pachyptila belcheri, using species-specific microsatellites as genetic markers. We found that 7 of 34 chicks (21%) were not fathered by the male pair partner. This value is among the highest recorded for seabirds, and it now needs to be established if these result from forced copulations as suggested for some albatross species, or female cuckoldry.

Theory of pseudogap and superconductivity in doped Mott insulators

AbstractUnderdoped Mott insulators provide us with a challenge of many‐body physics. Recent renewed understanding is discussed in terms of the evolution of pole and zero structure of the single‐particle Green's function. Pseudogap as well as Fermi arc/pocket structure in the underdoped cuprates is well reproduced from the recent cluster extension of the dynamical mean‐field theory. Emergent coexisting zeros and poles set the underdoped Mott insulator apart from the Fermi liquid, separated by topological transitions. The cofermion proposed as a generalization of exciton in the slave‐boson framework accounts for the origin of the zero surface formation. The cofermion‐quasiparticle hybridization gap offers a natural understanding of the pseudogap and various unusual Mottness. Furthermore the cofermion offers a novel pairing mechanism, where the cofermion has two roles: It reinforces the Cooper pair as a pair partner of the quasiparticle and acts as a glue as well. It provides a strong insight for solving the puzzle found in the dichotomy of the gap structure.