Phylogenetic analysis of MADS
Phylogenetic analysis of MADS

... have been classified into several groups 9). In vascular plants, MIKC-type MADS domain proteins are known for their conserved structure, including MADS, intervening (I), keratin-like (K), and C-terminal (C) domains 8, 10, 11). The MADS domain is a major determinant of DNA binding, but it also perfor ...
BIOL 433 Plant Genetics Term 1, 2005
BIOL 433 Plant Genetics Term 1, 2005

... • The Arabidopsis Genome Initiative. 2000. Analysis of the Genome Sequence of the flowering Plant Arabidopsis thaliana. Nature 408: 796-815. • Berardini et al., 2004. Functional Annotation of the Arabidopsis Genome. Plant Physiology 135: 745-755. ...
Nuclear pore interactions with the genome
Nuclear pore interactions with the genome

... binding sites are enriched for GAGA factor binding [27], which exhibits boundary activity [54]. Therefore, binding of Nups can impact the local chromatin structure, which can impact transcriptional regulation. Another example of the impact of Nups on chromatin structure is provided by the phenomen ...
BCH364C-391L_Motifs_Spring2015
BCH364C-391L_Motifs_Spring2015

... Transcription factor regulatory networks can be highly complex, e.g. as for embryonic stem cell regulators ...
ie inbred strains
ie inbred strains

... At this stage, the trophectoderm attaches to the uterine lining to initiate the process of implantation. E, embryonic day. ...
Chapter 20 DNA Technology
Chapter 20 DNA Technology

... • Can be used to put eukaryotic genes into bacteria • Bacteria don’t process DNA so eukaryotic genes with introns can’t be used directly • Reverse transcriptase enzymes can take n “edited” message and change it into a gene GENE CLONING in BACTERIA •process used to produce multiple copies of specific ...
Genetics Practice Questions C 1. Describe transcription
Genetics Practice Questions C 1. Describe transcription

... Codons are code “words” formed by the letters of four nitrogen bases in a polynucleotide chain. The letters are combined in groups of three to show “words.” 4. Outline the steps of translation. Translation is the process in which the genetic code in mRNA is read to make a protein. When mRNA reaches ...
Protein Synthesis Project 1516
Protein Synthesis Project 1516

... make.  The  sequence  of  nucleotides  in  DNA  determines  the  sequence  of  amino  acids  in  polypeptides,  and  thus  the   structure  of  proteins.     In  a  process  called  transcription,  which  takes  place  in  the  nucleus ...
Chapter 10 Protein Synthesis
Chapter 10 Protein Synthesis

... acids to make protein B.TL occurs in the cytoplasm on Ribosomes C. TL is also called Protein Synthesis ...
GENE WIKI CONCEPTUAL OVERVIEW
GENE WIKI CONCEPTUAL OVERVIEW

... Rank & Reason The scientist will also be able to rank and recommend additional research for a given gene or protein. S/he will be able to give very specific information on his/her reasons and requested research. Supporting data or information can be attached. ...
CFE Higher Biology Unit one
CFE Higher Biology Unit one

... recognise and reassemble the fragments to determine the sequence of the complete genome genomics where genetic sequences of different species, different phenotypes of the same species, or even different cells within the one organism are studied for similarities or differences genomic sequencing the ...
DNA Microarray:
DNA Microarray:

... expression in both conditions. ...
PASS MOCK EXAM
PASS MOCK EXAM

... 26. Imagine  that  the  second  bolded  nucleotide  (a  cytosine)  in  the  DNA  sequence  is  changed  to  an   adenine  base.  This  would  cause  a  __________  mutation  and  __________  alter  the  reading   frame     A) Nonsense   ...
Slide 1
Slide 1

... Single nucleotide polymorphisms (SNP) are DNA sequence variations that occur when a single nucleotide (A,T,C,or G) in the genome sequence is altered. For example a SNP might change the DNA sequence AAGGCTAA to ATGGCTAA ...
Nucleic Acids and Protein Synthesis
Nucleic Acids and Protein Synthesis

... – Made up of amino acids linked together into chains called polypeptides • 20 different amino acids occur in nature • for a protein to function properly it must be made ...
DNA-ppt
DNA-ppt

... RNA • RNA is a nucleic acid like DNA • RNA is single stranded. • RNA does not contain thymine but instead has the base called uricil which bonds with adenine. • RNA has many functions in the cell, most importantly it is critical in the process of protein synthesis ...
Determining a Consensus Sequence Activity Key
Determining a Consensus Sequence Activity Key

... changes were more similar to the consensus, the protein was made more often; when the changes were more different than the consensus, the protein was made less often. The gene she used for these experiments was the insulin gene. We now know that there are slight variations in the consensus sequence ...
Lecture - Computational Bioscience Program
Lecture - Computational Bioscience Program

... immunohistochemistry with antibodies against proteins encoded by a particular gene in a cluster, the identity of the cell type within the tumor specimen that contributed the observed gene expression pattern could be determined. Clusters of genes with coherent expression patterns in cultured cells an ...
Unit 6 Protein Synthesis
Unit 6 Protein Synthesis

... Changes in DNA code may be harmful, helpful, or have no effect EXP= If instructions for cell division is affected, can lead to cancer (uncontrolled cell ...
in Power-Point Format
in Power-Point Format

... enzyme to admit dsDNA template to form RPc • After open channel, s expelled from main channel as channel narrows around melted DNA of the RPo • Linker joining s regions 3-4 lies in RNA exit channel • As transcripts grow, have strong competition from s3s4 linker for exit channel -> often abortive tra ...
IIIp-1 nuc Neurospora crassa
IIIp-1 nuc Neurospora crassa

... the six highly homologous mig2 genes, mig2-1 to mig2-6, with five arranged as direct repeats in a 7.1-kb cluster. mig genes encode small, secreted, cysteinecontaining proteins that lack homologies in data bases and whose function is unknown. Detailed analysis of the mig2-5 promoter, which confers th ...
RNA - ZMBH
RNA - ZMBH

... Eucaryotic promoter DNA must be freed or at least loosened from nucleosomes to allow assembly of the initiation complex: Nucleosomes hinder TF binding to the DNA DNA sequence influences nucleosome positioning „Pioneer“ TFs bind at nucleosome-free regions ...
Editing-Regulation&GO - Bioinformatics Research Group at SRI
Editing-Regulation&GO - Bioinformatics Research Group at SRI

... • Indicate whether it activates, represses or both • Define relative distance from transcription start site  Draws DNA footprint from feature defined in TF • Can edit TF binding sites by clicking on site name  Edit > Regulatory Interaction Editor • Can add summaries and citations • This builds the ...
Document
Document

... C. Elegans grow on agar dishes with E. coli bacteria as a source of food. ...
m5zn_7de32f5a588b6c7
m5zn_7de32f5a588b6c7

... • Complementary base pairing (elongation): free nucleotides present in the nucleus bind with complementary bases on unzipped portions of the two strands of DNA; this process is catalyzed by DNA polymerase. • Joining (elongation): complementary nucleotides bond to each other to form new strands; each ...

Promoter (genetics)



In genetics, a promoter is a region of DNA that initiates transcription of a particular gene. Promoters are located near the transcription start sites of genes, on the same strand and upstream on the DNA (towards the 5' region of the sense strand).Promoters can be about 100–1000 base pairs long.