1,793 research outputs found
Isolation and Identification of Crude Triacontanol from Rice Bran Wax
In present investigation crude triacontanol was isolated and identified from rice bran wax. Triacontanol was isolated by saponification and extraction method. The obtained mixture is crude Triacontanol. It was analyzed by Gas Chromatography (GC) and melting point method. Purity of triacontanol was 13.33%. 1Department of Botany, Dr. Babasaheb Ambedkar Marathwada University, Aurangabad (M.S.), India; 2Department of Botany, University of Pune, Pune (M.S.), India* Corresponding Author, Email: [email protected] Cite This Article As: Sandhya Jaybhay, Pankaj Chate and Avinash Ade. 2010. Isolation and Identification of Crude Triacontanol from Rice Bran Wax. J. Exp. Sci. 1(2): 26
Siolicaris sandhya Reddy & Arbizu 2012, comb. nov.
Siolicaris sandhya (Ranga Reddy, 2001) comb. nov. (Figs. 6 –10) Synonymy. Parastenocaris sandhya Ranga Reddy — Ranga Reddy (2001), Ranga Reddy & Defaye (2007), Ranga Reddy & Schminke (2008), Ranga Reddy & Defaye (2009). Material examined. 3 ♂ and 3 ♀♀. Illustrations based on 1 ♂ and 1 ♀ dissected and mounted on 7 slides each. Type locality. River Krishna at Vijayawada, South India (additional information in Ranga Reddy 2001). Emended description. Male. Integumental window visible only on cephalothorax (Fig. 6A, B). Furca (Figs. 6A) with 7 setae; setae I–III proximally inserted, anterior to seta VII; seta II reduced; seta IV subdistal, inserting dorsally, on the outer margin of furca; seta V inserting on the distal margin of furca; seta VI shorter than seta V, inserting beneath it; seta VII approximately of the same size as seta VI, socketed at basis and inserting dorsally, on inner margin of furca. A1 (Fig. 7A–C) haplocer, 8-segmented and prehensile, 7 th segment without a distal inner apophysis; armature beginning with proximal segment: 0/6/4/2 [1 hyaline spine (dotted structure) and 1 seta]/5+Ae/2 [1 hyaline spine (dotted structure) and 1 seta]/2 [1 hyaline spine (dotted structure) and 1 distal seta]/9+Ae. A2 (Fig. 7D) and Md (Fig. 7E) as described by Ranga Reddy (2001). Mx1 (Fig. 7F) praecoxal arthrite with 5 elements (1 dorsal surface seta, 3 claw-like pinnate spines and 1 slender seta), coxa with 1 seta, basis with 3 setae. Mx2 (Fig. 7G) basis with 2 endites, proximal endite with 1 seta, distal endite with 2 slender setae and 1 pinnate spine; proximal endopodal segment drawn into claw; distal endopodal segment with 2 setae. Mxp (Fig. 7H) subchelate, composed of syncoxa, basis with 1-segmented endopod fused to the claw-like apical seta. P1 (Fig. 7I) coxa bare, basis with outer seta and outer row of spinules, and row of spinules near the insertion of the enp. Exp 3-segmented, exp-1 with outer spine, exp-2 unarmed, exp-3 with 2 outer spines and 2 geniculate setae of different lengths; enp 2-segmented, slightly bent inwards; enp-1 as long as the combined length of first 2 exopodal segments, with 2 long spinules inserted at inner distal third, enp-2 with 1 outer spine and 1 geniculate seta. P2 (Fig. 8A–C) coxa bare; basis without outer seta, with outer pore and 1 row of spinules on outer margin; exp 3-segmented, exp-1 with long outer spine and hyaline frill on its distal inner corner; exp-2 without armature, with a distal row of long spinules and 3 superimposed series of long setules on inner margin; exp-3 with 3 setae, hyaline frill on distal inner corner, row of long spinules on outer distal corner and row of long setules proximally inserted on inner margin; enp 1-segmented, shorter than exp-1, obovate, with proximal and medial row of spinules, distally with long seta and large spinule with hyaline margin. P3 (Fig. 8D–F) coxa naked; basis subquadrate, with row of strong spinules on outer margin, near the insertion of outer seta and pore; apophysis elongate, with distal claw and distal hyaline round tip, 1 large, outer spinule near the insertion of thumb; thumb strong, longer than apophysis, with a broad basis; enp represented by small seta. P4 (Fig. 8G) coxa naked; basis with outer seta, pore, row of small spinules near the outer margin and row of small spinules near the insertion of enp; exp 3-segmented, exp-1 with outer spine and hyaline frill on distal inner corner; exp-2 without armature and with distal row of long spinules; exp-3 with 2 setae and hyaline frill on distal inner corner; enp much reduced in size, 1-segmented, digitiform, bare. P5 (Fig. 9A–C) trapezoidal, with slender inner process, connected by a small, triangular intercoxal plate. With a row of small spinules on inner margin and 4 setae, all distally inserted; proximal exopodal seta, adjacent to the outer basal seta tiny and inserted on a small protuberance. P6 (Fig. 9A–B) as described by Ranga Reddy (2001). Female. Sexually dimorphic in A1, P2–P5 and genital somite. Integumental window visible only on the cephalothorax (Fig. 6B). Furca (Fig. 6B, C, E) armature as in male; variation in furcal shape as described by Ranga Reddy (2001). Telson with ventral row of spinules near the insertion of each furcal ramus (Fig. 6D). FIGURE 10. Siolicaris sandhya (Ranga Reddy, 2001) comb. nov., female. A, A1; B, A1 segment V; C, A2; D, P1; E, P2; F, enp P2; G, inner seta exp-3 P2; H, P3; I, J, P4 basis with enp and partially drawn exp-1. Scale bar = 20 µm. A1 7-segmented (Fig. 10A), not geniculate; armature beginning with proximal segment as follows: 0/4/4/ 1+Ae/2/1/9+Ae. P2 (Fig. 10E–F) inner margin of exp-2–3 without the series of long setules present in males. Enp claviform, with distal row of spinules and distal seta. P3 (Fig. 10H) coxa bare. Basis with a long outer seta and inner row of spinules approximately where enp inserts in other species. Enp completely absent. Exp 2-segmented, exp-1 with outer spine and distally, with outer and inner row of small spinules; exp-2 with 2 distal setae, outer row of spinules and usual hyaline frill at distal inner corner. P4 (Fig. 10I) coxa, basis and exp as in the male, with minor differences in ornamentation; enp reduced in size, smaller than exp-1, 1-segmented, digitiform, bare. P5 (Fig. 9D) trapezoidal, with moderately pronounced inner process, 1 inner spinule and 3 setae, all distally inserted. Intercoxal sclerite not observed. P6 (Fig. 9D) formed by 2 lateral and unarmed plates covering the gonopore. Single medially located copulatory pore.Published as part of Reddy, Ranga & Arbizu, Martínez, 2012, Revision of the genus Siolicaris Jakobi, 1972, with redescriptions of S. sioli (Noodt, 1963) and S. jakobi (Noodt, 1963) from South America, and S. sandhya (Ranga Reddy, 2001) comb. nov. from India (Copepoda, Harpacticoida,, pp. 49-71 in Zootaxa 3493 on pages 59-6
India's National Population Policy (2000): An Evaluation
professional paper for the fulfillment of the Masters of Public Policy degreeThis paper examines the quality of India’s family planning practice under the National Population Policy (2000) or NPP-2000. The intent of NPP-2000 is to eliminate unmet contraceptive needs by providing high quality reproductive healthcare. In particular, the NPP-2000 aims to address flaws in healthcare infrastructure and to achieve a total fertility rate of 2.1 births per woman by 2010. Unfortunately, the implementation difficulties of past years persist in the era of NPP-2000. Indian families are subject to poorly-trained healthcare personnel and insufficient medical supplies, among other setbacks. Using interviews with family planning professionals and data from quantitative
and qualitative studies, the following analysis exposes widespread variation in the quality of family planning practice. Additionally, the author proposes strategies to address unmet contraceptive needs in northern states and among disadvantaged populations.Agrawal, Sandhya. (2009). India's National Population Policy (2000): An Evaluation. Retrieved from the University Digital Conservancy, https://hdl.handle.net/11299/50283
A Study on Google is an Artificial Encyclopedia Affecting Human Intelligence - An Empirical Study
Google is opening this platform to the world, which gives us an equal opportunity to peek in and see how the company thinks about developing machine learning systems. Internally, Google has spent the last five years building a massive platform for artificial intelligence and now they're unleashing it on the world. Although Google would prefer you call it machine intelligence they feel that the word artificial intelligence carries too many connotations and fundamentally they're trying to create genuine intelligence just in machine. The internet makes things faster, but faster is not always necessarily. Better we don't want to sacrifice our critical thinking and uniqueness for the attainment of a modest amount of additional productivity our cognitive thinking is one of our greatest possessions and we should take this extra time to preserve it. Prof. Rekha D. M | Sandhya G N "A Study on Google is an Artificial Encyclopedia Affecting Human Intelligence - An Empirical Study" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-5 , August 2019, URL: https://www.ijtsrd.com/papers/ijtsrd27923.pd
Supplemental material for Migraine-related disability, impact, and health-related quality of life among patients with episodic migraine receiving preventive treatment with erenumab
Supplemental material for Migraine-related disability, impact, and health-related quality of life among patients with episodic migraine receiving preventive treatment with erenumab by Dawn C Buse, Richard B Lipton, Yngve Hallström, Uwe Reuter, Stewart J Tepper, Feng Zhang, Sandhya Sapra, Hernan Picard, Daniel D Mikol and Robert A Lenz in Cephalalgia</p
Effect of Chitosan on Okra (Abelmoschus esculentus (L.) Moench) Seed Germination
Present paper deals with the effect of chitosan at different concentration on seed germination of okra. It was revealed that chitosan at 0.03%, 0.12%,0.3% and 0.6% concentration induced seed germination in okra while at 0,03% there was maximum seed germination percentage as compare to other treatments. 1Department of Botany, Dr. Babasaheb Ambedkar Marathwada University, Aurangabad- 431 004 (MS), India; 2Department of Chemistry, Dr. Babasaheb Ambedkar Marathwada University, Aurangabad- 431 004 (MS), India; 3Department of Botany, University of Pune, Pune -411 007 (MS), India.* Corresponding Author, Email: [email protected] Cite This Article As: Sandhya Jaybhay, Asha Chate and Avinash B. Ade. 2010. Effect of Chitosan on Okra (Abelmoschus esculentus (L.) Moench) Seed Germination. J. Exp. Sci. 1(2): 27
Correction: Gut-associated cGMP mediates colitis and dysbiosis in a mouse model of an activating mutation in GUCY2C
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Correction|October 06 2021
Correction: Gut-associated cGMP mediates colitis and dysbiosis in a mouse model of an activating mutation in GUCY2C
Vishwas Mishra, Avipsa Bose, Shashi Kiran, Sanghita Banerjee, Idrees A. Shah, Pooja Chaukimath, Mudasir M. Reshi, Swarna Srinivas, Anaxee Barman, Sandhya S. Visweswariah
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Author and Article Information
Vishwas Mishra
Avipsa Bose
Shashi Kiran
Sanghita Banerjee
Idrees A. Shah
Pooja Chaukimath
Mudasir M. Reshi
Swarna Srinivas
Anaxee Barman
Sandhya S. Visweswariah
Online ISSN: 1540-9538
Print ISSN: 0022-1007
© 2021 Mishra et al.
This article is available under a Creative Commons License (Attribution 4.0 International, as described at https://creativecommons.org/licenses/by/4.0/).
J Exp Med (2021) 218 (11): e2021047909292021c.
https://doi.org/10.1084/jem.2021047909292021c
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Corrected article Gut-associated cGMP mediates colitis and dysbiosis in a mouse model of an activating mutation in GUCY2C
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Vol. 218, No. 11 | 10.1084/jem.20210479 | September 21, 2021
The authors regret that the legends to Fig. 3 (C, D, and I) and Fig. 4 (B, C, and E) did not originally specify that the values shown are adjusted P values. In addition, the colors used in the bar graph in Fig. 4 B were not correct nor defined. The corrected legends, with new text underlined, and corrected Fig. 4 are shown here.
The errors appear only in PDFs downloaded before September 27, 2021
A matching-adjusted indirect treatment comparison (MAIC) of daratumumab-bortezomib-melphalan-prednisone (D-VMP) versus lenalidomide-dexamethasone continuous (Rd continuous), lenalidomide-dexamethasone 18 months (Rd 18), and melphalan-prednisone-thalidomide (MPT)
D-VMP is a novel treatment for transplant-ineligible newly diagnosed multiple myeloma (TIE NDMM). D-VMP significantly prolonged PFS versus VMP in the ALCYONE trial. The FIRST trial investigated Rd given in 28-day cycles until disease progression, Rd for 18 cycles, and MPT for 12 cycles for TIE NDMM. As no randomized controlled trials comparing D-VMP to standard-of-care regimens such as those in FIRST are available, an MAIC was performed to assess relative OS and PFS for D-VMP from ALYCONE and Rd continuous, Rd 18, and MPT from FIRST. Individual patient data for D-VMP in ALCYONE were weighted to match aggregated baseline patient characteristics for each arm of FIRST. D-VMP significantly improved OS versus MPT and Rd 18, with a trend favoring D-VMP versus Rd continuous. D-VMP performed significantly better than all FIRST comparators for PFS. This MAIC demonstrates OS and PFS benefits for D-VMP versus Rd continuous, Rd 18, and MPT
Spin observables and reconstruction of transverse amplitudes in p-d elastic-scattering
A suitable set of observables, a few of which have already been measured, is suggested. Using these, the p-d elastic scattering amplitudes may be completely reconstructed
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