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11.
Paul B. Conn Antoinette M. Gorgone Amelia R. Jugovich Barbie L. Byrd Larry J. Hansen 《The Journal of wildlife management》2011,75(3):569-579
We investigated the potential for using mark–recapture models to estimate abundance of bottlenose dolphin populations in open systems (e.g., bays, estuaries). A major challenge in these systems is that immigration and emigration occur during sampling, thus violating one of the most basic assumptions of mark–recapture models. We assumed that dolphins using our study site were composed of both residents (those that used the study area almost exclusively during our study), and transients (those that passed through our study area but did not remain long), and examined several mark–recapture estimators for their ability to accurately and precisely estimate the abundance of residents and the superpopulation (i.e., residents + transients). Using simulated data, we found that a novel approach accounting for transients resulted in estimators with less bias, smaller absolute relative error, and confidence interval coverage closer to nominal than other approaches, but this novel approach required intensive sampling and that the “correct” transient pattern be specified. In contrast, classical mark–recapture estimators for closed populations often overestimated the number of residents and underestimated the superpopulation. Using photo-identification records, a model-averaged estimate of the superpopulation of bottlenose dolphins in and around Choctawhatchee Bay, Florida was 232 (SE = 13) animals. We estimated resident abundance at 179 (SE = 8), which was lower than the number of unique animals we encountered (188). Our results appear promising for developing monitoring programs for bottlenose dolphins and other taxa in open systems. Our estimators should prove useful to wildlife managers who wish to base conservation decisions on estimates of the number of animals that reside primarily in their study or management area. © 2011 The Wildlife Society. 相似文献
12.
Donald S. Livingstone III Barbie Freeman Juan Carlos Motamayor Raymond J. Schnell Stefan Royaert Jemmy Takrama Alan W. Meerow David N. Kuhn 《Molecular breeding : new strategies in plant improvement》2012,30(1):33-52
The tropical tree crop Theobroma cacao L. is grown commercially for its beans, which are used in the production of cocoa butter and chocolate. Although the upper Amazon region is the center of origin for cacao, 70% of the world??s supply of cacao beans currently comes from small farms in West Africa. While cacao breeding programs in producer nations are the source of improved planting material, modern marker-based breeding is difficult to perform due to the lack of genotyping facilities in these countries. While DNA extraction can be routinely performed, the equipment needed to analyze simple sequence repeats (SSRs) is seldom available, forcing the outsourcing of genotyping to foreign laboratories and delaying the breeding process. We describe a 5?? nuclease (TaqMan)-based single nucleotide polymorphism (SNP) assay for genotyping cacao plants under conditions similar to those found in most cacao-producing areas. The assay was tested under field conditions by planting open pollinated seeds of seven pods from four different maternal plants. The resulting 171 seedlings were successfully genotyped with 18 SNP markers representing 12 loci. The ability to use temperature-stable reagents and rapid DNA extraction methods is also explored. Additionally, by examining the seedling genotypes for the SNP markers and 14 additional SSR markers, we investigated whether seeds in a pod are the result of single or multiple pollination events. This simple, effective method of genotyping cacao seedlings in the field should allow for more efficient resource management of seed gardens and is currently being implemented in Ghana. 相似文献
13.
Hongwei Liu Magdalena Plancarte Erin E. Ball Christopher M. Weiss Omar Gonzales-Viera Karen Holcomb Zhong-Min Ma A. Mark Allen J. Rachel Reader Pdraig J. Duignan Barbie Halaska Zenab Khan Divya Kriti Jayeeta Dutta Harm van Bakel Kenneth Jackson Patricia A. Pesavento Walter M. Boyce Lark L. Coffey 《Journal of virology》2021,95(16)
14.
The structural biology of HIV assembly 总被引:6,自引:0,他引:6
HIV assembly and replication proceed through the formation of morphologically distinct immature and mature viral capsids that are organized by the Gag polyprotein (immature) and by the fully processed CA protein (mature). The Gag polyprotein is composed of three folded polypeptides (MA, CA, and NC) and three smaller peptides (SP1, SP2, and p6) that function together to coordinate membrane binding and Gag-Gag lattice interactions in immature virions. Following budding, HIV maturation is initiated by proteolytic processing of Gag, which induces conformational changes in the CA domain and results in the assembly of the distinctive conical capsid. Retroviral capsids are organized following the principles of fullerene cones, and the hexagonal CA lattice is stabilized by three distinct interfaces. Recently identified inhibitors of viral maturation act by disrupting the final stage of Gag processing, or by inhibiting the formation of a critical intermolecular CA-CA interface in the mature capsid. Following release into a new host cell, the capsid disassembles and host cell factors can potently restrict this stage of retroviral replication. Here, we review the structures of immature and mature HIV virions, focusing on recent studies that have defined the global organization of the immature Gag lattice, identified sites likely to undergo conformational changes during maturation, revealed the molecular structure of the mature capsid lattice, demonstrated that capsid architectures are conserved, identified the first capsid assembly inhibitors, and begun to uncover the remarkable biology of the mature capsid. 相似文献
15.
Owen Pornillos Barbie K. Ganser-Pornillos Sankaran Banumathi Mark Yeager 《Journal of molecular biology》2010,401(5):985-552
The human immunodeficiency virus type 1 capsid is modeled as a fullerene cone that is composed of ∼ 250 hexamers and 12 pentamers of the viral CA protein. Structures of CA hexamers have been difficult to obtain because the hexamer-stabilizing interactions are inherently weak, and CA tends to spontaneously assemble into capsid-like particles. Here, we describe a two-step biochemical strategy to obtain soluble CA hexamers for crystallization. First, the hexamer was stabilized by engineering disulfide cross-links (either A14C/E45C or A42C/T54C) between the N-terminal domains of adjacent subunits. Second, the cross-linked hexamers were prevented from polymerizing further into hyperstable capsid-like structures by mutations (W184A and M185A) that interfered with dimeric association between the C-terminal domains that link adjacent hexamers. The structures of two different cross-linked CA hexamers were nearly identical, and we combined the non-mutated portions of the structures to generate an atomic resolution model for the native hexamer. This hybrid approach for structure determination should be applicable to other viral capsomers and protein-protein complexes in general. 相似文献
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17.
Daqi Tu Zehua Zhu Alicia Y. Zhou Cai-hong Yun Kyung-Eun Lee Angela V. Toms Yiqun Li Gavin P. Dunn Edmond Chan Tran Thai Shenghong Yang Scott B. Ficarro Jarrod A. Marto Hyesung Jeon William C. Hahn David A. Barbie Michael J. Eck 《Cell reports》2013,3(3):747-758
Highlights? TBK1 forms a dimer structurally distinct from IKKβ ? Structure of TBK1 with inhibitors reveals basis for specific inhibition ? TBK1 is K63 polyubiquitinated on Lys30 in the kinase domain and Lys401 in the scaffold/dimerization domain ? K63-linked ubiquitination of dimerized TBK1 is required for kinase activation and signaling 相似文献
18.
Benjamin J Ganser-Pornillos BK Tivol WF Sundquist WI Jensen GJ 《Journal of molecular biology》2005,346(2):577-588
While the structures of nearly every HIV-1 protein are known in atomic detail from X-ray crystallography and NMR spectroscopy, many questions remain about how the individual proteins are arranged in the mature infectious viral particle. Here, we report the three-dimensional structures of individual HIV-1 virus-like particles (VLPs) as obtained by electron cryotomography. These reconstructions revealed that while the structures and positions of the conical cores within each VLP were unique, they exhibited several surprisingly consistent features, including similarities in the size and shape of the wide end of the capsid (the "base"), uniform positioning of the base and other regions of the capsid 11nm away from the envelope/MA layer, a cone angle that typically varied from 24 degrees to 18 degrees around the long axis of the cone, and an internal density (presumably part of the NC/RNA complex) cupped within the base. Multiple and nested capsids were observed. These results support the fullerene cone model for the viral capsid, indicate that viral maturation involves a free re-organization of the capsid shell rather than a continuous condensation, imply that capsid assembly is both concentration-driven and template-driven, suggest that specific interactions exist between the capsid and the adjacent envelope/MA and NC/RNA layers, and show that a particular capsid shape is favored strongly in-vivo. 相似文献
19.
Daria M. Dawidziak Jacint G. Sanchez Jonathan M. Wagner Barbie K. Ganser‐Pornillos Owen Pornillos 《Proteins》2017,85(10):1957-1961
Tripartite motif (TRIM) proteins comprise a large family of RING‐type ubiquitin E3 ligases that regulate important biological processes. An emerging general model is that TRIMs form elongated antiparallel coiled‐coil dimers that prevent interaction of the two attendant RING domains. The RING domains themselves bind E2 conjugating enzymes as dimers, implying that an active TRIM ligase requires higher‐order oligomerization of the basal coiled‐coil dimers. Here, we report crystal structures of the TRIM23 RING domain in isolation and in complex with an E2–ubiquitin conjugate. Our results indicate that TRIM23 enzymatic activity requires RING dimerization, consistent with the general model of TRIM activation. 相似文献
20.
David N. Kuhn Antonio Figueira Uilson Lopes Juan Carlos Motamayor Alan W. Meerow Kathleen Cariaga Barbie Freeman Donald S. LivingstoneIII Raymond J. Schnell 《Tree Genetics & Genomes》2010,6(5):783-792
The seeds of Theobroma cacao (cacao) are the source of cocoa, the raw material for the multi-billion dollar chocolate industry. Cacao’s two most important
traits are its unique seed storage triglyceride (cocoa butter) and the flavor of its fermented beans (chocolate). The genome
of T. cacao is being sequenced, and to expand the utility of the genome sequence to the improvement of cacao, we are evaluating Theobroma grandiflorum, the closest economically important species of Theobroma for its potential use in a comparative genomic study. T. grandiflorum differs from cacao in important agronomic traits such as flavor of the fermented beans, disease resistance to witches’ broom
and abscission of mature fruits. By comparing genomic sequences and analyzing viable inter-specific hybrids, we hope to identify
the key genes that regulate cacao’s most important traits. We have investigated the utility in T. grandiflorum of three types of markers (microsatellite markers, single-strand conformational polymorphism markers and single nucleotide
polymorphism (SNP) markers) developed in cacao. Through sequencing of amplicons of 12 diverse individuals of both cacao and
T. grandiflorum, we have identified new intra- and inter-specific SNPs. Two markers which had no overlap of alleles between the species were
used to genotype putative inter-specific hybrid seedlings. Sequence conservation was significant and species-specific differences
numerous enough to suggest that comparative genomics of T. grandiflorum and T. cacao will be useful in elucidating the genetic differences that lead to a variety of important agronomic trait differences. 相似文献