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1. Meaningful associations in the adolescent brain cognitive development study

Author

Dick, Anthony Steven, Lopez, Daniel A, Watts, Ashley L, Heeringa, Steven, Reuter, Chase, Bartsch, Hauke, Fan, Chun Chieh, Kennedy, David N, Palmer, Clare, Marshall, Andrew, Haist, Frank, Hawes, Samuel, Nichols, Thomas E, Barch, Deanna M, Jernigan, Terry L, Garavan, Hugh, Grant, Steven, Pariyadath, Vani, Hoffman, Elizabeth, Neale, Michael, Stuart, Elizabeth A, Paulus, Martin P, Sher, Kenneth J, and Thompson, Wesley K

Subjects
Public Health, Health Sciences, Clinical Research, Neurosciences, Drug Abuse (NIDA only), Pediatric, Pediatric Research Initiative, Behavioral and Social Science, Mental Health, Substance Misuse, Brain Disorders, Basic Behavioral and Social Science, Generic health relevance, Mental health, Good Health and Well Being, Adolescent, Adolescent Development, Alcoholism, Brain, Catchment Area, Health, Child, Cognition, Female, Follow-Up Studies, Gene-Environment Interaction, Humans, Male, Models, Neurological, Models, Psychological, Organ Size, Parents, Propensity Score, Prospective Studies, Psychology, Adolescent, Reproducibility of Results, Research Design, Sample Size, Sampling Studies, Selection Bias, Socioeconomic Factors, United States, Adolescent brain cognitive development study, Population neuroscience, Genetics, Hypothesis testing, Reproducibility, Covariate Adjustments, Effect Sizes, Medical and Health Sciences, Psychology and Cognitive Sciences, Neurology & Neurosurgery, Biomedical and clinical sciences, Health sciences
Abstract

The Adolescent Brain Cognitive Development (ABCD) Study is the largest single-cohort prospective longitudinal study of neurodevelopment and children's health in the United States. A cohort of n = 11,880 children aged 9-10 years (and their parents/guardians) were recruited across 22 sites and are being followed with in-person visits on an annual basis for at least 10 years. The study approximates the US population on several key sociodemographic variables, including sex, race, ethnicity, household income, and parental education. Data collected include assessments of health, mental health, substance use, culture and environment and neurocognition, as well as geocoded exposures, structural and functional magnetic resonance imaging (MRI), and whole-genome genotyping. Here, we describe the ABCD Study aims and design, as well as issues surrounding estimation of meaningful associations using its data, including population inferences, hypothesis testing, power and precision, control of covariates, interpretation of associations, and recommended best practices for reproducible research, analytical procedures and reporting of results.

Published
2021

2. #1. Acid ceramidase (ASAH1) is a key mediator of drug resistance in relapsed/refractory multiple myeloma

Author

Bishop, Ryan T., primary, Li, Tao, additional, Alugubelli, Raghunandan R., additional, Nasr, Mostafa, additional, Nyman, Karl J., additional, Sudalagunta, Praneeth, additional, Meads, Mark, additional, Frieling, Jeremy, additional, Nerlakanti, Niveditha, additional, Tauro, Marilena, additional, Hampton, Oliver, additional, Fang, Bin, additional, Grant, Steven, additional, Koomen, John, additional, Siqueira Silva, Ariosto, additional, Shain, Kenneth H., additional, and Lynch, Conor C., additional

Published
2024
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3. IAP and HDAC inhibitors interact synergistically in myeloma cells through noncanonical NF-κB– and caspase-8–dependent mechanisms

Author

Zhou, Liang, Zhang, Yu, Meads, Mark B., Dai, Yun, Ning, Yanxia, Hu, Xiaoyan, Li, Lin, Sharma, Kanika, Nkwocha, Jewel, Parker, Rebecca, Bui, Danny, McCarter, Jacquelyn, Kramer, Lora, Purcell, Cullen, Sudalagunta, Praneeth R., Canevarolo, Rafael R., Coelho Siqueira Silva, Maria D., De Avila, Gabriel, Alugubelli, Raghunandan Reddy, Silva, Ariosto S., Kmeiciak, Maciej, Ferreira-Gonzalez, Andrea, Shain, Kenneth H., and Grant, Steven

Published
2021
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4. Proportionate Affine Projection Algorithms for Block-sparse System Identification

Author

Liu, Jianming and Grant, Steven L.

Subjects
Computer Science - Information Theory
Abstract

A new family of block-sparse proportionate affine projection algorithms (BS-PAPA) is proposed to improve the performance for block-sparse systems. This is motivated by the recent block-sparse proportionate normalized least mean square (BS-PNLMS) algorithm. It is demonstrated that the affine projection algorithm (APA), proportionate APA (PAPA), BS-PNLMS and PNLMS are all special cases of the proposed BS-PAPA algorithm. Meanwhile, an efficient implementation of the proposed BS-PAPA and block-sparse memory PAPA (BS-MPAPA) are also presented to reduce computational complexity. Simulation results demonstrate that the proposed BS-PAPA and BS-MPAPA algorithms outperform the APA, PAPA and MPAPA algorithms for block-sparse system identification in terms of both faster convergence speed and better tracking ability., Comment: ICASSP 2016

Published
2016

5. Block Sparse Memory Improved Proportionate Affine Projection Sign Algorithm

Author

Liu, Jianming and Grant, Steven L.

Subjects
Computer Science - Systems and Control, Computer Science - Sound
Abstract

A block sparse memory improved proportionate affine projection sign algorithm (BS-MIP-APSA) is proposed for block sparse system identification under impulsive noise. The new BS-MIP-APSA not only inherits the performance improvement for block-sparse system identification, but also achieves robustness to impulsive noise and the efficiency of the memory improved proportionate affine projection sign algorithm (MIP-APSA). Simulations indicate that it can provide both faster convergence rate and better tracking ability under impulsive interference for block sparse system identification as compared to APSA and MIP-APSA., Comment: 2 pages, accepted by Electronics Letters

Published
2015

6. Proportionate Adaptive Filtering for Block Sparse System Identification

Author

Liu, Jianming and Grant, Steven L.

Subjects
Computer Science - Information Theory
Abstract

In this paper, a new family of proportionate normalized least mean square (PNLMS) adaptive algorithms that improve the performance of identifying block-sparse systems is proposed. The main proposed algorithm, called block-sparse PNLMS (BS-PNLMS), is based on the optimization of a mixed l2,1 norm of the adaptive filter coefficients. It is demonstrated that both the NLMS and the traditional PNLMS are special cases of BS-PNLMS. Meanwhile, a block-sparse improved PNLMS (BS-IPNLMS) is also derived for both sparse and dispersive impulse responses. Simulation results demonstrate that the proposed BS-PNLMS and BS-IPNLMS algorithms outperformed the NLMS, PNLMS and IPNLMS algorithms with only a modest increase in computational complexity.

Published
2015
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7. An Improved Variable Step-size Zero-point Attracting Projection Algorithm

Author

Liu, Jianming and Grant, Steven L.

Subjects
Computer Science - Other Computer Science
Abstract

This paper proposes an improved variable step-size (VSS) scheme for zero-point attracting projection (ZAP) algorithm. The proposed VSS is proportional to the sparseness difference between filter coefficients and the true impulse response. Meanwhile, it works for both sparse and non-sparse system identification, and simulation results demonstrate that the proposed algorithm could provide both faster convergence rate and better tracking ability than previous ones., Comment: 5 pages, ICASSP 2015. arXiv admin note: substantial text overlap with arXiv:1312.2612

Published
2015

8. Myeloid Targeted Human MLL-ENL and MLL-AF9 Induces cdk9 and bcl2 Expression in Zebrafish Embryos.

Author

Belt, Alex J., Grant, Steven, Tombes, Robert M., and Rothschild, Sarah C.

Subjects
*BRACHYDANIO, *DRUG discovery, *ACUTE myeloid leukemia, *EMBRYOS, *HEMATOLOGIC malignancies, *CHROMOSOMAL rearrangement
Abstract

Acute myeloid leukemia (AML) accounts for greater than twenty thousand new cases of leukemia annually in the United States. The average five-year survival rate is approximately 30%, pointing to the need for developing novel model systems for drug discovery. In particular, patients with chromosomal rearrangements in the mixed lineage leukemia (MLL) gene have higher relapse rates with poor outcomes. In this study we investigated the expression of human MLL-ENL and MLL-AF9 in the myeloid lineage of zebrafish embryos. We observed an expansion of MLL positive cells and determined these cells colocalized with the myeloid markers spi1b, mpx, and mpeg. In addition, expression of MLL-ENL and MLL-AF9 induced the expression of endogenous bcl2 and cdk9, genes that are often dysregulated in MLL-r-AML. Co-treatment of lyz: MLL-ENL or lyz:MLL-AF9 expressing embryos with the BCL2 inhibitor, Venetoclax, and the CDK9 inhibitor, Flavopiridol, significantly reduced the number of MLL positive cells compared to embryos treated with vehicle or either drug alone. In addition, cotreatment with Venetoclax and Flavopiridol significantly reduced the expression of endogenous mcl1a compared to vehicle, consist with AML. This new model of MLL-r-AML provides a novel tool to understand the molecular mechanisms underlying disease progression and a platform for drug discovery. Author summary: Acute myeloid leukemia (AML) accounts for over twenty thousand new cases of leukemia per year in the United States. MLL rearrangements (MLL-r) occur in approximately 10% of AML patients, with 34% of those harboring an MLL-ENL or MLL-AF9 rearrangement. Patients with an MLL-r have a higher relapse rate and their overall survival is low, pointing to a need for novel therapeutic interventions. Zebrafish have emerged as a powerful model system to study hematological malignancies due their conserved hematopoietic program, genetic tractability, and pharmacological accessibility. Expression of human MLL-ENL and MLL-AF9 in the myeloid lineage of zebrafish embryos induced an expansion of myeloid cells and caused an increase in expression of endogenous bcl2 and cdk9. MLL expression was significantly reduced in lyz:MLL-ENL and lyz-MLL-AF9 embryos co-treated with the BCL2 inhibitor (Venetoclax) and the CDK9 inhibitor (Flavopiridol) compared to embryos treated with vehicle or either drug alone. Reduced MLL expression occurred in conjunction with a significant decrease in mcl1a expression, consistent with human AML cells. Taken together, these results further support the use of zebrafish to model hematological malignancies for drug discovery. [ABSTRACT FROM AUTHOR]

Published
2024
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9. A New Variable Step-size Zero-point Attracting Projection Algorithm

Author

Liu, Jianming and Grant, Steven L

Subjects
Computer Science - Other Computer Science
Abstract

This paper proposes a new variable step-size (VSS) scheme for the recently introduced zero-point attracting projection (ZAP) algorithm. The proposed variable step-size ZAPs are based on the gradient of the estimated filter coefficients sparseness that is approximated by the difference between the sparseness measure of current filter coefficients and an averaged sparseness measure. Simulation results demonstrate that the proposed approach provides both faster convergence rate and better tracking ability than previous ones., Comment: 5 pages, Asilomar 2013

Published
2013

10. An Improved Variable Step-size Affine Projection Sign Algorithm for Echo Cancellation

Author

Liu, Jianming and Grant, Steven L.

Subjects
Computer Science - Other Computer Science
Abstract

This paper proposes an improved variable step-size (VSS) algorithm for the recently introduced affine projection sign algorithm (APSA) based on the recovery of the near-end signal energy in the error signal. Simulation results demonstrate that, compared to the previous VSS for APSA, the proposed approach provides both more robustness to impulse interference and better tracking ability of echo path change., Comment: 5 pages, EUSIPCO-2013

Published
2013

11. Harnessing neuroplasticity for clinical applications.

Author

Cramer, Steven C, Sur, Mriganka, Dobkin, Bruce H, O'Brien, Charles, Sanger, Terence D, Trojanowski, John Q, Rumsey, Judith M, Hicks, Ramona, Cameron, Judy, Chen, Daofen, Chen, Wen G, Cohen, Leonardo G, deCharms, Christopher, Duffy, Charles J, Eden, Guinevere F, Fetz, Eberhard E, Filart, Rosemarie, Freund, Michelle, Grant, Steven J, Haber, Suzanne, Kalivas, Peter W, Kolb, Bryan, Kramer, Arthur F, Lynch, Minda, Mayberg, Helen S, McQuillen, Patrick S, Nitkin, Ralph, Pascual-Leone, Alvaro, Reuter-Lorenz, Patricia, Schiff, Nicholas, Sharma, Anu, Shekim, Lana, Stryker, Michael, Sullivan, Edith V, and Vinogradov, Sophia

Subjects
Aging, Animals, Biomedical Research, Brain Diseases: physiopathology, therapy, Cognition Disorders: etiology, Humans, Neuronal Plasticity: physiology, Recovery of Function, Stroke: pathology, physiopathology, therapy
Abstract

Neuroplasticity can be defined as the ability of the nervous system to respond to intrinsic or extrinsic stimuli by reorganizing its structure, function and connections. Major advances in the understanding of neuroplasticity have to date yielded few established interventions. To advance the translation of neuroplasticity research towards clinical applications, the National Institutes of Health Blueprint for Neuroscience Research sponsored a workshop in 2009. Basic and clinical researchers in disciplines from central nervous system injury/stroke, mental/addictive disorders, paediatric/developmental disorders and neurodegeneration/ageing identified cardinal examples of neuroplasticity, underlying mechanisms, therapeutic implications and common denominators. Promising therapies that may enhance training-induced cognitive and motor learning, such as brain stimulation and neuropharmacological interventions, were identified, along with questions of how best to use this body of information to reduce human disability. Improved understanding of adaptive mechanisms at every level, from molecules to synapses, to networks, to behaviour, can be gained from iterative collaborations between basic and clinical researchers. Lessons can be gleaned from studying fields related to plasticity, such as development, critical periods, learning and response to disease. Improved means of assessing neuroplasticity in humans, including biomarkers for predicting and monitoring treatment response, are needed. Neuroplasticity occurs with many variations, in many forms, and in many contexts. However, common themes in plasticity that emerge across diverse central nervous system conditions include experience dependence, time sensitivity and the importance of motivation and attention. Integration of information across disciplines should enhance opportunities for the translation of neuroplasticity and circuit retraining research into effective clinical therapies.

Published
2011

12. Activating Inducible T cell Co-stimulator (ICOS) yields anti-tumor activity alone and in combination with anti-PD-1 checkpoint blockade

Author

Yadavilli, Sapna, primary, Waight, Jeremy D, additional, Brett, Sara, additional, Bi, Meixia, additional, Zhang, Tianqian, additional, Liu, Yao-Bin, additional, Ellis, Catherine, additional, Turner, David C, additional, Hahn, Ashleigh, additional, Shi, Hong, additional, Seestaller-Wehr, Laura, additional, Jing, Junping, additional, Xie, Qing, additional, Shaik, Jafar Sadik, additional, Ji, Xiao, additional, Gagnon, Robert, additional, Fieles, William, additional, Hook, Laura, additional, Grant, Steven, additional, Hopley, Stephanie, additional, DeYoung, M. Phillip, additional, Blackwell, Christina, additional, Chisamore, Michael, additional, Biddlecombe, Robert, additional, Figueroa, David J, additional, Hopson, Christopher B, additional, Srinivasan, Roopa, additional, Smothers, James, additional, Maio, Michele, additional, Rischin, Danny, additional, Olive, Daniel, additional, Paul, Elaine, additional, Mayes, Patrick A., additional, Hoos, Axel, additional, and Ballas, Marc, additional

Published
2023
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21. Construction & expression in E. coli of novel single-chain antibody fragments against the herbicide atrazine

Author

Grant, Steven D.

Subjects
628.55, Land pollution & soil pollution
Abstract

The objective of this research was to determine the potential of two anti-atrazine single-chain antibodies (scAbs) to detect very dilute atrazine concentration, specifically in the nanomolar and sub-nanomolar ranges. Analysis of environmental pesticide contamination is routinely done by high performance liquid chromatography (HPLC), gas chromatography (GC) and mass spectrometry (MS). However, since the mid eighties there have been an increasing number of reports describing the use immunoassays to detect environmental pollutants. Although immunoanalysis using whole antibodies has been shown to be almost as effective as GC/MS (Thurman et al., 1990) the technology is still not widely used for pesticide analysis. This thesis will describe the increased sensitivity of single-chain antibody fragments, compared to whole antibodies, to detect low concentrations of atrazine and related triazines. The effect of monomeric and dimeric scAb conformations on the ability of enzyme linked immunosorbent assays (ELISAs) to detect atrazine and related triazines is investigated. The thermal and chemical stability of the scAbs, and a modified scAb containing an interchain disulphide bond, are compared with the parent monoclonal antibodies (MAbs) to determine their suitability in an environmental ELISA assay system. The expressions in Escherichia coli (E. coli) of two different anti-atrazine scAbs and related antibody fragments are studied, and an optimised expression protocol for these antibody fragments obtained. Three potentially toxic amino acid residues identified in one of the variable heavy (VH) domains (Knappik & Pluckthun, 1995) are mutated to less toxic amino acids, and their effects on antibody fragment expression observed.

Published
1997

22. Reactivity-Guided Isolation and Medicinal Chemistry of Marine Bacterial Natural Products

Author

Seiler, Grant Steven

Subjects
Organic chemistry
Abstract

Marine natural products have long served as leads for pharmaceutical compounds, as well as sources of compounds whose value lies in the novelty of their structures. As more natural products are discovered and described, compounds with truly novel structures or bioactivities have become increasingly difficult to find. Therefore, a reactivity-guided approach has been developed to aid in the search for natural products bearing specific functional groups. An azide-based probe for terminal alkyne-bearing natural products was synthesized and implemented, which facilitated the discovery of the vatiamide family of natural products. Further, a suite of tetrazine-based probes for isonitrile-bearing natural products was synthesized and evaluated on the basis of reactivity, stability, and fragmentation behavior in mass spectrometry.The marine bacterial natural product lymphostin was recognizable for its unusual structural features, but its biochemical activity, and mechanism thereof, was not fully understood. Lymphostin and its family of related analogs were evaluated for their kinase inhibition activity, and model systems were synthesized to understand lymphostin’s mechanism of kinase inhibition. Lymphostin was found to be a potent and irreversible inhibitor of PI3K/mTOR, the first compound from bacteria to be shown with this activity. An effort towards the total synthesis of lymphostin was then undertaken, resulting in the discovery of an unusual heteroaryl dimerization reaction.

Published
2019

24. A new color-changing species of Corydoras (Siluriformes: Callichthyidae) from the rio Jutaí, Brazilian Amazon.

Author

Caserta Tencatt, Luiz Fernando, Grant, Steven, and Frances Bentley, Rebecca

Subjects
*CATFISHES, *SPECIES, *ORBITS (Astronomy), *BLOOD platelets, *CHROMATOPHORES, *APOSEMATISM, *FISH anatomy
Abstract

A new species of Corydoras is described from the rio Jutaí, Amazon basin, Brazil. The new species can be distinguished from its congeners by having the following features: (I) ventral surface of trunk entirely or almost entirely covered by smallto relatively large-sized coalescent platelets, forming a typical mosaic-like pattern; (II) large, arched dark brown or black patch extending from interopercle region to posterior process of parieto-supraoccipital, transversally crossing the orbit and forming a typical mask-like blotch; (III) absence of conspicuous dark markings on caudal fin; (IV) absence of longitudinal rows of dark blotches on flanks; (V) region of first dorsolateral body plate surrounding posterior process of parieto-supraoccipital clearly lighter than remaining portions of head, forming a V-shaped pattern in dorsal view; (VI) anterior portion of dorsal fin with a conspicuous dark patch; and (VII) anterior portion of dorsal-fin base with conspicuous concentration of dark brown or black chromatophores, forming a dark patch slightly darker than ground color of body. A discussion on the possible positive adaptive value of the color pattern is also provided. [ABSTRACT FROM AUTHOR]

Published
2023
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25. Venetoclax with decitabine or azacitidine in the first‐line treatment of acute myeloid leukemia

Author

Bouligny, Ian M., primary, Murray, Graeme, additional, Doyel, Michael, additional, Patel, Tilak, additional, Boron, Josh, additional, Tran, Valerie, additional, Gor, Juhi, additional, Hang, Yiwei, additional, Alnimer, Yanal, additional, Zacholski, Kyle, additional, Venn, Chad, additional, Wages, Nolan A., additional, Grant, Steven, additional, and Maher, Keri R., additional

Published
2023
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31. Randomized Phase II Study to Assess the Role of Nivolumab As Single Agent to Eliminate Minimal Residual Disease and Maintain Remission in Acute Myelogenous Leukemia (AML) Patients after Chemotherapy (NCI9706 protocol; REMAIN Trial)

Author

Liu, Hongtao, primary, Sharon, Elad, additional, Karrison, Theodore G., additional, Zha, Yuanyuan, additional, Fulton, Noreen, additional, Streicher, Howard, additional, Sweet, Kendra, additional, Yaghmour, George, additional, Liu, Jane Jijun, additional, Jonas, Brian A., additional, Schimmer, Aaron D., additional, Grant, Steven, additional, Zeidan, Amer M., additional, Hildebrandt, Gerhard C., additional, Hourigan, Christopher S., additional, Lowrey, Christopher H., additional, Mattison, Ryan J., additional, Palmisiano, Neil, additional, Salhotra, Amandeep, additional, Tzachanis, Dimitrios, additional, Baer, Maria R., additional, Lin, Tara L., additional, Patel, Prapti, additional, Chen, Helen, additional, Stadler, Walter M., additional, Odenike, Olatoyosi, additional, Larson, Richard A., additional, Gajewski, Thomas F., additional, and Stock, Wendy, additional

Published
2022
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38. Synergistic Interactions between the Hypomethylating Agent Thio-Deoxycytidine and Venetoclax in Myelodysplastic Syndrome Cells.

Author

Xiaoyan Hu, Lin Li, Nkwocha, Jewel, Sharma, Kanika, Liang Zhou, and Grant, Steven

Subjects
MYELODYSPLASTIC syndromes, WESTERN immunoblotting, VENETOCLAX, REACTIVE oxygen species, SEROTONIN syndrome, CORD blood
Abstract

Interactions between the novel hypomethylating agent (HMA) thio-deoxycytidine (T-dCyd) and the BCL-2 antagonist ABT-199 (venetoclax) have been examined in human myelodysplastic syndrome (MDS) cells. The cells were exposed to agents alone or in combination, after which apoptosis was assessed, and a Western blot analysis was performed. Co-administration of T-dCyd and ABT-199 was associated with the down-regulation of DNA methyltransferase 1 (DNMT1) and synergistic interactions documented by a Median Dose Effect analysis in multiple MDS-derived lines (e.g., MOLM-13, SKM-1, and F-36P). Inducible BCL-2 knock-down significantly increased T-dCyd’s lethality in MOLM-13 cells. Similar interactions were observed in the primary MDS cells, but not in the normal cord blood CD34+ cells. Enhanced killing by the T-dCyd/ABT-199 regimen was associated with increased reactive oxygen species (ROS) generation and the down-regulation of the anti-oxidant proteins Nrf2 and HO-1, as well as BCL-2. Moreover, ROS scavengers (e.g., NAC) reduced lethality. Collectively, these data suggest that combining T-dCyd with ABT-199 kills MDS cells through an ROS-dependent mechanism, and we argue that this strategy warrants consideration in MDS therapy. [ABSTRACT FROM AUTHOR]

Published
2023
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41. Chk1 Inhibition Potently Blocks STAT3 Tyrosine705 Phosphorylation, DNA-Binding Activity, and Activation of Downstream Targets in Human Multiple Myeloma Cells

Author

Zhou, Liang, primary, Pei, Xinyan, additional, Zhang, Yu, additional, Ning, Yanxia, additional, Li, Lin, additional, Hu, Xiaoyan, additional, Chalasani, Sri Lakshmi, additional, Sharma, Kanika, additional, Nkwocha, Jewel, additional, Yu, Jonathan, additional, Bandyopadhyay, Dipankar, additional, Sebti, Said M., additional, and Grant, Steven, additional

Published
2022
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50. Corydoras bethanae Bentley & Grant & Tencatt 2021, new species

Author

Bentley, Rebecca Frances, Grant, Steven, and Tencatt, Luiz Fernando Caserta

Subjects
Actinopterygii, Corydoras bethanae, Animalia, Corydoras, Biodiversity, Callichthyidae, Chordata, Siluriformes, Taxonomy
Abstract

Corydoras bethanae, new species (Figs. 1, 2A, 3A, 4-6, Table 1) Corydoras sp. CW006:��� Alexandrou et al., 2011: 85���86 (��� C. sp. CW6���; phylogeny; as member of the lineage 8; mimicry).��� Tencatt et al., 2019: 459���460 (comparison with C. arcuatus; photo in life (fig. 8) of the specimen designated as holotype herein). Holotype. MUSM 69403, female, 51.2 mm SL, Peru, Department of Loreto, Requena Province, Soplin District, r��o Blanco (close to the confluence with the r��o Tapiche), aquarium specimen imported in 2017 by Aquarium Glaser GmbH, Germany. Paratypes. BMNH 2017.5.25.1-21, 21, 43.7���57.3 mm SL, same data as holotype; BMNH 2018.7.5.4-5, 2, 56.0���56.0 mm SL; MNRJ 52311, 1, 53.1 mm SL; ZUFMS 6470, 1 of 3, 49.9 mm SL, 2 CS of 3, 55.0��� 56.9 mm SL, Peru, Department of Loreto, said to be from the r��o Ucayali basin, aquarium specimens imported in 2018 by Maidenhead Aquatics, Wigan, UK. Diagnosis. Corydoras bethanae can be distinguished from its congeners, except for those belonging to the lineage 8 sensu Alexandrou et al. (2011), by having the posterior margin of dorsal-fin spine with laminar serrations directed towards the origin of the spine (vs. absence of such serration pattern); from the species within lineage 8, except for C. arcuatus, it differs by the presence of a long, wide, arched, and continuous black stripe, which runs parallel to the dorsal profile of the body, extending at least from the region below anterior origin of dorsal fin to the anterior half of the ventral caudal-fin lobe (Fig. 2A) (vs. absence of a similar stripe in remaining lineage 8 congeners); from C. arcuatus (Fig. 2B) differs by the color pattern of the head (presence of a black stripe transversally crossing the eye, forming the typical mask-like blotch; mask clearly not fused to arched stripe in most specimens; some specimens with mask separated from arched stripe by a thin line around the suture between neurocranium (on the region composed by the posteroventral margin of parieto-supraoccipital plus the posterodorsal margin of the compound pterotic) and first dorsolateral body plate in C. bethanae (Figs. 3A and 6) vs. mask-like blotch absent; continuous black stripe extending from area at corner of mouth to anteroventral margin of orbit and starting again from posterodorsal margin of orbit; running close and in parallel to dorsum from this point to anterior margin of first dorsolateral body plate, merging with trunk section of the arched stripe in C. arcuatus (Fig. 3B), by having a longer snout (53.4���67.4% of HL vs. 42.1���51.5), a smaller HL (30.4���34.7% of SL vs. 41.1���51.4), and a larger least interorbital distance (42.6���49.2% of HL vs. 28.7���36.0). Additionally, the new species differs from C. gracilis Nijssen & Isbr ��cker, 1976 and C. narcissus Nijssen & Isbr ��cker, 1980a by having laminar serrations on posterior margin of pectoral-fin spine (vs. conical); from C. gracilis and C. urucu Britto, Wosiacki & Montag, 2009 by having pointed snout, presenting a long mesethmoid, with anterior tip larger than 50% of the entire length of the bone (vs. rounded snout, presenting a short mesethmoid, with anterior tip smaller than 50% of the entire bone length); from C. granti Tencatt, Lima & Britto, 2019 (Fig. 2C) by having ventral surface of trunk covered by small, non-coalescent platelets (vs. ventral surface of trunk entirely or partially covered by relatively large and coalescent platelets). Description. Morphometric data are presented in Table 1. Head laterally compressed with convex dorsal profile, roughly triangular in dorsal view. Snout conical in dorsal view, ranging from pointed to conspicuously pointed. Head profile in lateral view slightly concave from tip of snout to anterior nares, ascending slightly concave from this point to anterior portion of parieto-supraoccipital process; slightly convex or nearly straight from this point to dorsal-fin origin. Profile slightly convex along dorsal-fin base. Postdorsal-fin body profile slightly concave to adiposefin spine, concave from this point to caudal-fin base. Ventral profile of body nearly straight or slightly convex from isthmus to pectoral girdle, and slightly convex from this point until pelvic girdle. Profile nearly straight or slightly convex from pelvic girdle to base of first anal-fin ray, ascending abruptly concave until caudal-fin base. Body roughly elliptical in cross section at pectoral girdle, gradually becoming more compressed toward caudal fin. Eye rounded, located dorsolaterally on head. Orbit delimited anteriorly by lateral ethmoid, anterodorsally by frontal, posterodorsally by sphenotic, posteriorly by infraorbital 2, and ventrally by infraorbital 1. Anterior and posterior nares close to each other, only separated by flap of skin. Anterior naris tubular. Posterior naris close to anterodorsal margin of orbit, separated from it by distance slightly larger than naris diameter. Mouth small, subterminal, width slightly smaller than bony orbit diameter. Maxillary barbel long in size, reaching anteroventral limit of gill opening. Outer mental barbel slightly longer than maxillary barbel. Inner mental barbel fleshy, base of each counterpart slightly separated from each other. Small rounded papillae covering entire surface of all barbels, upper and lower lips, snout and isthmus. Mesethmoid long with anterior tip well developed, larger than 50% of bone length (see Britto, 2003: 123, character 1, state 0; fig. 1A); posterior portion relatively narrow, entirely covered by thin layer of skin. Middle portion of mesethmoid with strongly well-developed lateroventral process; region of process with width clearly larger than width of posterior portion of mesethmoid. Nasal capsule delimited anteriorly and ventrally by lateral ethmoid, and posteriorly and dorsally by frontal. Nasal slender, laterally curved, inner margin laminar; mesial border contacting only frontal. Lateral ethmoid conspicuously expanded anteriorly, with anterodorsal expansion contacting frontal and mesethmoid, and anteroventral expansion connected to lateroventral process of mesethmoid. Frontal elongated, ranging from narrow, width less than half of entire length, to relatively wide, with width equal to half of entire length; anterior projection long, size equal to or slightly larger than nasal length. Frontal fontanel large, slender, and somewhat ellipsoid; posterior tip extension entering anterior margin of parieto-supraoccipital. Sphenotic somewhat trapezoid, contacting parieto-supraoccipital dorsally, compound pterotic posteriorly, second infraorbital ventrally and frontal anteriorly (Fig. 4). Compound pterotic roughly pipe-shaped, with posteriormost portion contacting first lateral-line ossicle, posteroventral margin contacting cleithrum, and anteroventral margin contacting opercle and infraorbital 2, and posterior expansion almost entirely covering lateral opening of swimbladder capsule, leaving slender area on its dorsal margin covered only by thick layer of skin (Fig. 4). Parieto-supraoccipital wide, posterior process long and contacting nuchal plate; region of contact between posterior process and nuchal plate covered by thick layer of skin. Two laminar infraorbitals with minute odontodes. Infraorbital 1 large, ventral laminar expansion moderately developed, anterior portion with well-developed laminar expansion, reaching to or slightly surpassing anterior margin of nasal capsule; inner laminar expansion strongly reduced (Fig. 4). Infraorbital 2 small, widened, with posterior laminar expansion well developed; posteroventral margin contacting posterodorsal ridge of hyomandibula, posterodorsal edge contacting sphenotic and compound pterotic; inner laminar expansion strongly reduced (Fig. 4). Posterodorsal ridge of hyomandibula close to its articulation with opercle relatively slender, exposed, and bearing small odontodes. Dorsal ridge of hyomandibula between compound pterotic and opercle covered by thick layer of skin; covered by posterodorsal edge of infraorbital 2 in some specimens. Interopercle partially exposed, with anterior portion covered by thick skin layer; subtriangular, anterior projection well-developed. Preopercle elongated, ranging from relatively slender to widened; minute odontodes sparse on external surface. Opercle dorsoventrally elongated, width smaller than half of entire length; free margin slightly convex, without serrations and covered by small odontodes. Four branchiostegal rays decreasing in size posteriorly. Hypobranchial 2 somewhat triangular, tip ossified and directed towards anterior portion, posterior margin cartilaginous; ossified portion conspicuously well developed, its size about three times cartilaginous portion. Five ceratobranchials with expansions increasing posteriorly; ceratobranchial 1 with small process on anterior margin of mesial portion; ceratobranchial 3 with continuous laminar expansion on postero-lateral margin; ceratobranchial 5 toothed on posterodorsal surface, with 34 to 42 (2) teeth aligned in one row. Four epibranchials with similar size; epibranchial 2 slightly larger than others, with small pointed process on laminar expansion of posterior margin; epibranchial 3 with roughly triangular or somewhat trapezoid uncinate process on laminar expansion of posterior margin; uncinate process curved mesially in left side of paratype ZUFMS 6470, 56.9 mm SL. Two wide pharyngobranchials (3 and 4); pharyngobranchial 3 with roughly triangular laminar expansion on posterior margin; variably notched expansion in some specimens. Upper tooth plate oval, 34 to 47 (2) teeth aligned in two rows on posteroventral surface. Lateral-line canal reaching cephalic laterosensory system through compound pterotic, branching twice before reaching sphenotic: pterotic branch, with single pore, preoperculomandibular branch conspicuously reduced, with single pore opening at postotic main canal; postotic main canal becoming widened just posterior to pterotic branch. Sensory canal continuing through compound pterotic, reaching sphenotic as temporal canal, which splits into two branches: one branch giving rise to infraorbital canal, other branch connecting to frontal through supraorbital canal, both with single pore. Supraorbital canal branched, running through nasal bone. Epiphyseal branch conspicuously reduced; pore opening close to supraorbital main canal, directed towards frontal fontanel. Nasal canal with two or three openings, first on posterior edge, second, when present, on posterolateral portion and generally fused with first pore, and third on anterior edge. Infraorbital canal running through entire infraorbital 2, extending to infraorbital 1 and opening into two pores. Preoperculomandibular branch giving rise to preoperculo-mandibular canal, which runs through entire preopercle with three openings, leading to pores 3, 4, and 5, respectively. Dorsal fin subtriangular, located just posterior to second or third dorsolateral body plate. Dorsal-fin rays II,7 (1), II,8* (19), I,9 (4), posterior margin of dorsal-fin spine with 18 to 19 poorly to moderately-developed laminar serrations; most serrations directed towards origin of spine; some serrations variably perpendicularly directed; serrations absent close to origin of spine; small odontodes on anterior and lateral surfaces of spine (Fig. 5A). Nuchal plate well developed, almost entirely exposed, with minute odontodes. Spinelet short, spine moderately developed, adpressed distal tip slightly surpassing posterior origin of dorsal-fin base, and anterior margin with small odontodes. Pectoral fin roughly triangular, its origin just posterior to gill opening. Pectoral-fin rays I,6*(1), I,7 (2), I,8 (4), I,9 (15), I,9,i (1), posterior margin of pectoral spine with 24 to 28 poorly- to moderately-developed laminar serrations along almost its entire length, absent close to origin of spine; most serrations directed towards pectoral-fin origin; some serrations perpendicularly directed or directed towards tip of spine; small odontodes on anterior, dorsal and ventral surfaces of spine (Fig. 5B). Anteroventral portion of cleithrum exposed; posterolateral portion of scapulocoracoid moderately developed, exposed, with anterior portion strongly expanded anteriorly, almost reaching to or contacting anteroventral portion of cleithrum; exposed areas bearing small odontodes; Opening of axillary gland sensu Kiehl et al. (2006) located just posterior to pectoral-fin spine base. Pelvic fin oblong, located just below first ventrolateral body plate, and at vertical through region between first and second branched dorsal-fin ray. Pelvic-fin rays i,5* (24). Adipose fin roughly triangular, separated from base of last dorsal-fin ray by generally six dorsolateral body plates. Anal fin subtriangular, located just posterior to 12 th or 13 th ventrolateral body plates, and at vertical through adiposefin spine base. Anal-fin rays ii,6* (22). Caudal fin bilobed, with dorsal lobe slightly larger than ventral lobe; lobes with similar size in some specimens. Caudal-fin rays i,10,i (1), i,11,i (2), i,12,i* (20), i,13,i (1), generally five or six dorsal and ventral procurrent rays. Three laterosensory canals on trunk. First ossicle tubular, second ossicle laminar, and third lateral-line canal encased in third dorsolateral body plate. Body plates with minute odontodes scattered over exposed area, conspicuous line of odontodes confined on posterior margins. Dorsolateral body plates 24* (22), 25 (2). Ventrolateral body plates 21 (10), 22* (13), 23 (1). Dorsolateral body plates along dorsal-fin base 6 (2), 7* (22). Dorsolateral body plates between adipose- and caudal-fin 7 (3), 8* (18), 9 (1). Preadipose platelets 4* (3). Small platelets covering base of caudal-fin rays. Small platelets disposed dorsally and ventrally between junctions of lateral plates on posterior portion of caudal peduncle. Anterior margin of orbit, above posterior portion of lateral ethmoid, variably with small, irregular platelets bearing odontodes. Ventral surface of trunk densely covered by small irregular platelets bearing odontodes. Vertebral count 22 (2). Ribs 7 (1), 8 (1); first pair conspicuously large, its middle portion closely connected to first ventrolateral body plate; its tip connected to anterior external process of basipterygium. Complex vertebra moderately developed. Color in alcohol. Overall color light whitish, grey, light beige, or tan, with area above dark arched line and mask being slightly darker, sometimes orange-brown; melanophores along, above and below the midline of the lateral scutes, being darker and larger in some specimens; snout area anterior to dark eye mask and opercular region dark grey or diffuse black. Eye mask and body stripe (as set out in diagnosis) black; basal portion of six outermost segmented rays of ventral lobe of caudal fin black, and innermost procurrent ray of same lobe black or dark grey, forming extension of body stripe; some specimens with one dark or black pigmented transverse, diffuse, vertical band in caudal fin. Pale area on middle portion of dorsolateral surface of cleithrum corresponds with axillary gland sensu Kiehl et al. (2006) underneath; holotype similarly colored area on the ventral margin of the base of the adipose-fin spine. Color in life. See Figs 2A, and 6 of the holotype and two paratypes, respectively, whilst alive for color in life. Overall color same as in alcohol; third dorsolateral body scute usually whitish; green or gold to copper hue on lateral scutes above and below midline, opercular area, cleithrum, and underneath and behind the eye; snout area anterior to dark eye mask is usually light grey. Eye mask, body, and caudal fins dark markings as per preserved specimens. Whitish narrow transversal area from ventral half of fourth dorsolateral body plate, passing through dorsal half of first ventrolateral body plate, and reaching to posterolateral margin of cleithrum. Other fin membranes and rays hyaline, with some of the dorsal and adipose fin membranes with whitish chromatophores (colors in Fig. 6 are background colors). Color of fry can be determined from the spawning in the account by Petersson (2020). Sexual dimorphism. In addition to a tubular genital papilla (see Spadella et al., 2017), males have more pointed and elongated pelvic fins; the dark arched body stripe can appear proportionately wider; and tend to have the lateral scutes with darker and larger markings along, above and below the midline of flank. Geographical distribution. Corydoras bethanae is so far only known from the r��o Blanco system (r��o Ucayali basin), Soplin District, Requena Province, Department of Loreto, Peru (Fig. 7). Based on the findings of Corahua et al. (2015) it is likely that it is found in the streams that drain into the main river. Natural history notes. Corydoras bethanae may be found in blackwater streams that drain into the predominantly whitewater r��o Blanco (Fig. 8A), although the UK aquarist Mark Breeze (pers. comm.) states that in the dry season he found small clearwater tributary streams near the confluence with the r��o Tapiche (Fig. 8B). Those streams had a sand substrate with hardly any leaf litter and just overhanging terrestrial plants. Corahua et al. (2015) found several Corydoras species in shallow, lotic blackwater streams or flooded forests that flowed into the middle reaches of the r��o Blanco, that were low in pH (5.4���5.5), electrical conductivity (4.8���8.9 ��s/cm), temperature of 25 degrees Centigrade, with abundant organic detritus, and white sand. A site in the lower region, closer to the type locality of Corydoras bethanae, was the same except it was lentic, the pH ranged from 4.1 ��� 5.6, and the electrical conductivity was 29.5���41.0 ��s/cm. Corydoras granti was found by Corhua et al. (2015) in this location (misidentified as Corydoras arcuatus); another species with an arched dark body band. Corahua et al. (2015) list at least eight species from the r��o Blanco, and in addition to those, information from fish collectors indicates that the following Corydoras can also be found in the r��o Blanco system: Corydoras coriatae Burgess, 1997, C138 (which is superficially similar to Corydoras bethanae), and CW073. Grant (2020) discussed curious behavior exhibited by Corydoras bethanae when in the aquarium. All corydoradins appear to be able to maintain their position in the water column, above the substrate, by using a combination of body movement and fin movement. They usually to do this when maneuvering while performing definite activities e.g., avoiding another fish or predator, feeding, spawning etc. In the aquarium C. bethanae tend to hover regularly and for long periods of time, apparently not related to any particular activity; a behavior that has not been reported for other lineage 8 Corydoras. The pale transversal bar from fourth dorsolateral body plate to posterolateral margin of cleithrum corresponds with a large ligament attached dorsally to the transverse process of dorsal pterygiophore and ventrally to the posterior laminar expansion of the first rib, which itself is connected to the anterior external process of basipterygium. Such condition may have some effect on the ability, Published as part of Bentley, Rebecca Frances, Grant, Steven & Tencatt, Luiz Fernando Caserta, 2021, A new arc-striped species of Corydoras Lac��p��de, 1803 (Teleostei: Callichthyidae) from the Peruvian Amazon, pp. 184-200 in Zootaxa 4948 (2) on pages 185-196, DOI: 10.11646/zootaxa.4948.2.2, http://zenodo.org/record/4620756, {"references":["Alexandrou, M. A., Oliveira, C., Maillard, M., McGill, R. A. R., Newton, J., Creer, S. & Taylor, M. I. (2011) Competition and phylogeny determine community structure in M ʾ llerian co-mimics. Nature, 469, 84 - 89. https: // doi. org / 10.1038 / nature 09660","Tencatt, L. F. C., Lima, F. C. T. & Britto, M. R. (2019) Deconstructing an octongeneric misconception reveals the true Corydoras arcuatus Elwin 1938 (Siluriformes: Callichthyidae) and a new Corydoras species from the Amazon basin. Journal of Fish Biology, 95 (2), 453 - 471. https: // doi. org / 10.1111 / jfb. 13980","Britto, M. R., Wosiacki, W. B. & Montag, L. F. A. (2009) A new species of Corydoradinae catfish (Ostariophysi: Siluriformes: Callichthyidae) from Rio Solimies Basin, Brazil. Copeia, 4, 684 - 689. https: // doi. org / 10.1643 / CI- 08 - 228","Kiehl, E., Rieger, C. & Greven, H. (2006) Axillary gland secretions contribute to the stress-induced discharge of a bactericidal substance in Corydoras sterbai (Callichthyidae, Siluriformes). Verhandlungen der Gesellschaft f ʾ r Ichthyologie, 6, 111 - 115.","Petersson, M. (2020) Breeding Corydoras CW 006 (Callichthyidae). Journal of the Catfish Study Group, 21 (4), 6 - 7.","Spadella, M. A., Desan, S. P., Henriques, T. C. B. P. O. & Oliveira, C. (2017) Variation in male reproductive system characters in Corydoradinae (Loricarioidei: Callichthyidae) reflects the occurrence of different lineages in this subfamily. Neotropical Ichthyology, 15, e 160039. https: // doi. org / 10.1590 / 1982 - 0224 - 20160039","Corahua, I., Aldea-Guevara, M. I. & Hidalgo, M. H. (2015) Peces / Fish. In: Pitman, N., Vriesendorp, C., Rivera Chavez, L., Wachter, T., Alvira Reyes, D., del Campo, A., Gagliardi-Urrutia, G., Rivera Gonzalez, D., Trevejo, L., Rivera Gonzalez, D. & Heilpern, S. (Eds.), Peru: Tapiche-Blanco. Rapid Biological and Social Inventories Report 27. Field Museum, Chicago, pp. 109 - 117 + 290 - 297 + 420 - 435.","Burgess, W. E. (1997) Corydoras coriatae, a new species of callichthyid catfish related to Corydoras fowleri. Tropical Fish Hobbyist, 45, 138 - 147.","Grant, S. (2020) Hovering behaviour in Corydoras CW 006. Journal of the Catfish Study Group, 21 (1), 27 - 29."]}

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2021
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